Xiaopeng Zhang | Flue gas | Best Researcher Award

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Assoc. Prof. Dr. Xiaopeng Zhang | Flue gas | Best Researcher Award

Associate Professor at Dalian University of Technology, China.

Dr. Xiaopeng Zhang  is an accomplished Associate Professor at the Dalian University of Technology, Panjin Campus 🏫.  He has built an impressive academic and research career in the field of environmental catalysis and heterogeneous catalysis 🧪. With a strong focus on advanced catalytic materials, Dr. Zhang has worked on various national and provincial projects, particularly on mercury removal from flue gas using novel Co₃O₄-based and MOF-supported catalysts 🌫️. His research bridges material chemistry and environmental protection, aiming to reduce hazardous emissions from industrial sources. He is a dedicated scholar, mentor, and innovator, contributing over a dozen SCI-indexed publications 📚 and collaborating with top researchers like Junjiang Bao and Gaohong He. Dr. Zhang is committed to solving real-world pollution problems through innovative catalyst design and surface engineering ⚛️.

Professional Profiles📖

Scopus

ORCID

Google Scholar

Education📚

Dr. Xiaopeng Zhang’s academic journey began with a Bachelor’s degree (2003–2007) from Marine College, Shandong University 🌊, followed by a Master’s degree (2007–2010) at the Center of Ecology Research, Chinese Academy of Sciences 🔬. He then pursued his Ph.D. (2010–2013) in Environmental Science and Engineering at Nankai University 🏛️. His educational background is rooted in interdisciplinary training, covering marine science, ecology, and environmental chemistry 🌱. This solid academic foundation equipped him with the theoretical and practical skills needed to explore advanced catalytic processes and the development of environmental technologies. His exposure to diverse scientific environments at three prestigious Chinese institutions has allowed him to develop a broad and integrative research outlook 📘, particularly in mercury capture, catalytic oxidation, and material synthesis.

Professional Experience💼

Dr. Zhang began his professional career as a Lecturer (2013–2017) at the School of Chemical Engineering, Dalian University of Technology (DUT), Panjin Campus 🏫. In 2017, he was promoted to Associate Professor, where he continues to lead research on environmental catalysts and flue gas purification. He teaches and supervises both undergraduate and postgraduate students 👨‍🏫 while conducting high-impact research in heterogeneous catalysis, focusing on pollutants like elemental mercury (Hg⁰). Over the years, he has secured multiple national-level grants and has built a robust research group focusing on surface engineering of nanomaterials. Dr. Zhang collaborates extensively with scholars across China and contributes regularly to high-impact journals 🧪📈. His professional trajectory reflects a strong commitment to research, teaching, and societal impact, particularly in the clean energy and environmental sectors.

Research Focus 🔍

Dr. Zhang’s research focuses on advanced catalytic materials for environmental applications 🔬🌍. His work centers on heterogeneous catalysis, particularly targeting the removal of elemental mercury (Hg⁰) from coal-fired flue gas using innovative Co₃O₄, MOF-based, and metal oxide catalysts ⚗️. He explores surface oxygen vacancies, crystal facet engineering, and single-atom catalysts to enhance catalytic efficiency under real-world conditions 🔥. His funded projects include developing Mn/Co-Ce-Zr catalysts and studying low-temperature SCR (Selective Catalytic Reduction) techniques to improve flue gas treatment processes. These efforts aim to minimize mercury emissions, addressing a critical environmental and public health challenge 🚫☣️. Dr. Zhang integrates experimental techniques with nanoscale material design to achieve green chemistry solutions, aligning his work with national pollution control strategies. His interdisciplinary approach combines materials science, surface chemistry, and environmental engineering to deliver practical outcomes.

Awards and Honors🏆

While formal awards are not listed, Dr. Xiaopeng Zhang has made significant contributions to environmental catalysis through his nationally funded research projects 🥇. He has received over 1 million RMB in competitive grants, including support from the National Natural Science Foundation of China and the Liaoning Provincial Natural Science Fund 💰. These recognitions affirm the scientific merit of his work on Co₃O₄ catalysts and their role in mercury removal from coal-fired power plants. His inclusion in collaborative projects with senior researchers like Junjiang Bao and Gaohong He highlights the esteem in which he is held in the research community 🤝. His contributions to multiple SCI-indexed journals and invitations to present findings further demonstrate academic recognition 🌟. As his career advances, Dr. Zhang is poised to receive formal honors for his impactful environmental research and technological innovations.

Conclusion ✅

Dr. Xiaopeng Zhang is a highly qualified candidate for the Best Researcher Award, demonstrating a robust research portfolio with consistent publication, funded research leadership, and valuable contributions to environmental materials and catalysis. His work aligns closely with global sustainability goals and the advancement of clean energy technologies. While there is room for improvement in terms of international visibility and innovation outreach, his technical excellence, productivity, and research significance make him exceptionally suitable for this award.

Publications to Noted📚

Title: A comparative study of Mn/CeO₂, Mn/ZrO₂ and Mn/Ce-ZrO₂ for low temperature selective catalytic reduction of NO with NH₃ in the presence of SO₂ and H₂O
Authors: B. Shen, X. Zhang, H. Ma, Y. Yao, T. Liu
Citations: 164
Year: 2013

Title: Triple-Layered Carbon-SiO₂ Composite Membrane for High Energy Density and Long Cycling Li–S Batteries
Authors: W. Kou, X. Li, Y. Liu, X. Zhang, S. Yang, X. Jiang, G. He, Y. Dai, W. Zheng, G. Yu
Citations: 98
Year: 2019

Title: Co₃O₄ Nanosheets Preferentially Growing (220) Facet with a Large Amount of Surface Chemisorbed Oxygen for Efficient Oxidation of Elemental Mercury
Authors: H. Zhu, X. Song, X. Han, X. Zhang, J. Bao, N. Zhang, G. He
Citations: 88
Year: 2020

Title: Comparative study of liquefied natural gas (LNG) cold energy power generation systems in series and parallel
Authors: J. Bao, T. Yuan, L. Zhang, N. Zhang, X. Zhang, G. He
Citations: 87
Year: 2019

Title: Low temperature NH₃–SCR over Zr and Ce pillared clay based catalysts
Authors: S. Boxiong, M. Hongqing, H. Chuan, Z. Xiaopeng
Citations: 75
Year: 2014

Title: Reduction of efficiency penalty for a natural gas combined cycle power plant with post-combustion CO₂ capture: Integration of liquid natural gas cold energy
Authors: J. Bao, L. Zhang, C. Song, N. Zhang, M. Guo, X. Zhang
Citations: 74
Year: 2019

Title: Effect of hydrogen-bonding interaction on the arrangement and dynamics of water confined in a polyamide membrane: A molecular dynamics simulation
Authors: N. Zhang, S. Chen, B. Yang, J. Huo, X. Zhang, J. Bao, X. Ruan, G. He
Citations: 74
Year: 2018

Title: Alkali metal deactivation of Mn–CeOx/Zr-delaminated-clay for the low-temperature selective catalytic reduction of NOx with NH₃
Authors: S. Boxiong, Y. Yan, C. Jianhong, Z. Xiaopeng
Citations: 67
Year: 2013

Title: Simultaneous optimization of system structure and working fluid for the three-stage condensation Rankine cycle utilizing LNG cold energy
Authors: J. Bao, R. Zhang, Y. Lin, N. Zhang, X. Zhang, G. He
Citations: 59
Year: 2018

Title: Understanding of imidazolium group hydration and polymer structure for hydroxide anion conduction in hydrated imidazolium-g-PPO membrane by molecular dynamics simulations
Authors: N. Zhang, J. Huo, B. Yang, X. Ruan, X. Zhang, J. Bao, W. Qi, G. He
Citations: 54
Year: 2018

Yan Zhu | Image processing | Best Researcher Award

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Mrs. Yan Zhu | Image processing | Best Researcher Award

Assistant at Longdong University, China.

Zhu Yan 🎓 is an Assistant at Longdong University, Qingyang, China. With a Master’s degree from Northwest Normal University, her academic foundation is rooted in Modern Educational Technology 💻. Her passion lies in image processing and computer simulation in materials science, where she explores innovative techniques for visualizing and analyzing material data. Zhu Yan’s expertise in digital image processing algorithms and data visualization 📊 has enabled her to contribute to key research projects focusing on beryllium, a potential material for nuclear fusion 🔬. She collaborates with institutions such as the Advanced Energy Science and Technology Guangdong Laboratory, bringing together experimental and computational methods for better material analysis. Committed to research and education, she strives to bridge technology and materials science in novel ways. Despite her early career status, she continues to make meaningful contributions to the scientific community 🌟.

Professional Profiles📖

ORCID

Education📚

Zhu Yan completed her Master’s degree 🎓 from Northwest Normal University, China 🇨🇳, majoring in Modern Educational Technology 💡. Her educational background combines a strong foundation in computer science 🖥️ and material science 🔍. During her academic journey, she focused on image processing, simulation modeling, and data visualization, especially within materials research contexts. Her studies equipped her with critical thinking, software proficiency, and analytical skills, allowing her to explore interdisciplinary research 📐📊. Her educational foundation laid the groundwork for her current research on impurity behaviors in beryllium, a material of interest in nuclear fusion 🔋. Her collaboration with top institutions such as the Advanced Energy Science and Technology Guangdong Laboratory further enriched her learning through exposure to experimental and theoretical tools 🧪🔬. Zhu Yan’s academic journey reflects a blend of education and innovation tailored toward advancing material simulation and visualization.

Professional Experience💼

Zhu Yan currently serves as an Assistant at Longdong University 🏛️. With a specialized focus on image processing and computer simulations, she has actively participated in material science research projects. Her work includes both theoretical studies and computational modeling of materials, especially involving beryllium—a key component for nuclear fusion applications ⚛️. Zhu Yan’s responsibilities include developing digital imaging algorithms, analyzing experimental data, and creating visualizations for scientific publications. Despite being early in her career, she has shown a commitment to interdisciplinary research and has worked collaboratively with institutions such as Northwest Normal University and Advanced Energy Science and Technology Guangdong Laboratory. Her academic role blends research and educational support, fostering both student learning and scientific advancement. Her involvement in simulation-driven analysis of impurities in beryllium reflects her growing expertise in applying computational tools to material behavior studies.

Research Focus 🔍

Zhu Yan’s research centers on image processing 🖼️, materials simulation 🧪, and educational technology in material science 🎓. Her core interest lies in visual analysis and computational modeling of materials—specifically, how impurities behave within beryllium, a potential candidate for use in nuclear fusion reactors ⚛️. Her recent project combines first-principles calculations with experimental techniques to study the solution and segregation of nonmetallic (O, C, Si) and metallic (Fe, Al, Zn, etc.) impurities in beryllium. She employs digital image processing algorithms 📊 to simulate microstructural behaviors and improve the visualization of simulation results. These techniques enhance the accuracy of predictions and facilitate the manufacturing of advanced materials, such as beryllium pebbles used in fusion systems. Through interdisciplinary collaboration and algorithm development, her research aims to optimize the performance and purity of critical engineering materials 🔧🌐.

Awards and Honors🏆

As of 2025, Zhu Yan has not yet received formal awards or honors 🏅, but her impactful work and contributions in the field of materials science simulation and education technology have positioned her as a promising researcher 💫. Her publication in the Computational Materials Science journal and collaboration with prestigious Chinese research institutions reflect peer recognition and academic merit 📖. While awards may still be forthcoming, her research contributions—especially the detailed analysis of impurity behaviors in beryllium—are notable in advancing the understanding of nuclear materials 🔋. Her role in bridging computational tools and material experiments has not gone unnoticed within her academic circle. With continued dedication and outputs, Zhu Yan is on a clear trajectory toward future recognition for her contributions to materials modeling, image analysis, and educational technology 🌟.

Conclusion ✅

While Assistant Zhu Yan is at an early career stage, her research demonstrates high relevance and promise—particularly in computational analysis of nuclear materials. Her work’s scientific merit and potential societal impact align with the vision of the Best Researcher Award. With continued publications, enhanced academic visibility, and participation in professional forums, she can emerge as a strong future leader in her field.

Publications to Noted📚

Title: Solution and segregation behaviors of impurity atoms in beryllium by experimental and theoretical investigations

Journal: Computational Materials Science

Publication Date: June 22, 2025 sciencedirect.com+7sciencedirect.com+7researchgate.net+7researchgate.net

Author(s): Yan Zhu (also credited as Zhu, J. K. Tian, Y. W. Liu, Z. C. Meng)

Year: 2025

Azam Anaraki Firooz | chemistry | Women Researcher Award

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Assoc. Prof. Dr. Azam Anaraki Firooz | chemistry
| Women Researcher Award

Associate Prof. at Shahid Rajaee Teacher Training University, Iran.

Dr. Azam Anaraki Firooz is an Associate Professor of Inorganic Chemistry at Shahid Rajaee Teacher Training University, Tehran, Iran. She specializes in nanochemistry, catalysis, and advanced functional materials. Her prolific academic career includes impactful publications in high-ranking journals such as Applied Catalysis B: Environmental, with an h-index of 18. Dr. Firooz has led research on heterogeneous catalysis, photocatalysis, gas sensors, and fuel cell technologies. A skilled experimentalist, she utilizes advanced synthesis (sol-gel, hydrothermal) and characterization techniques (XRD, TEM, BET, DR-UV/Vis). She has fostered international collaborations and mentored over 30 students. Her work contributes significantly to sustainable energy and environmental remediation solutions. With over a decade of experience, she is recognized for innovation, scientific leadership, and cross-disciplinary teamwork.

Professional Profiles📖

Scopus

ORCID

Google Scholar

Education📚

Dr. Firooz completed her Ph.D. in Inorganic Chemistry through a joint program between the University of Tehran and Tarbiat Modares University. Her doctoral research focused on the catalytic and sensing functions of SnO₂ nanostructures, where she ranked in the top 1% of her class. She also pursued a sabbatical at Nagasaki University in Japan, synthesizing mesoporous MoO₃ nanostructures via spray pyrolysis for gas sensing. She earned her M.Sc. from Tarbiat Modares University, working on the synthesis and characterization of N-carbonyl phospho compounds. Her education combined theoretical rigor with hands-on experimental expertise in material synthesis and characterization, forming the basis of her future research in smart catalysts, functional nanomaterials, and energy/environmental applications.

Professional Experience💼

Dr. Azam Anaraki Firooz has over a decade of academic and research experience. She serves as Associate Professor at Shahid Rajaee University, where she has also held the position of department head for six years. She has taught undergraduate and graduate courses in inorganic chemistry and supervised over 30 theses. As a visiting professor at the University of Twente (Netherlands), she designed and synthesized smart catalysts and collaborated on advanced research projects. She has led numerous experimental studies involving catalyst development, material characterization, and sensor design. Her leadership in research, teaching, and international collaboration highlights her ability to integrate academic excellence with impactful scientific contributions in the fields of energy and environmental science.

Research Focus 🔍

Dr. Firooz’s research focuses on the synthesis and characterization of advanced inorganic and nanostructured materials for applications in catalysis, environmental remediation, and sustainable energy. She designs smart catalysts and functional materials using methods like sol-gel and hydrothermal synthesis. Her work targets heterogeneous and photocatalytic reactions for water purification and gas pollutant breakdown. She also develops gas sensors, fuel cell components, and polymer-graphite hybrid materials. Her lab is equipped with advanced tools such as XRD, TEM, BET, and DR-UV/Vis for material analysis. A key area of her interest is the interface of nanochemistry with energy conversion and sensing technologies, striving to solve environmental challenges through innovative, scalable, and environmentally friendly materials.

Awards and Honors🏆

Dr. Firooz has consistently demonstrated excellence throughout her academic journey. She graduated in the top 1% of her Ph.D. class and was selected for a prestigious research sabbatical at Nagasaki University in Japan. She has published extensively in high-impact journals such as Applied Catalysis B, receiving strong citation metrics (h-index 18) that reflect the influence of her work. Her role as head of the chemistry department and visiting professor at international institutions like the University of Twente also attest to her leadership and recognition. While specific award titles are not mentioned, her accolades include competitive research fellowships, institutional leadership positions, and invitations to collaborate globally—all of which reinforce her standing as a distinguished and award-worthy researcher.

Conclusion ✅

Dr. Azam Anaraki Firooz is a highly deserving candidate for the Women Researcher Award. Her research in inorganic and nanochemistry, backed by a solid publication record and international experience, reflects both depth and innovation. She has contributed significantly to environmental sustainability through catalysis and sensor development. While she could benefit from greater commercialization and global stage presence, her academic leadership, mentoring impact, and scientific excellence make her a standout in her field. This award would not only recognize her current achievements but also empower her future endeavors in advancing science and mentoring the next generation of women in STEM.

Publications to Noted📚

🌿 Green in situ synthesis of sandwich-like W-bridged siligraphene (g-SiC@WC@g-SiC) heterostructure from Saccharum Ravennae gum for ultrahigh-rate photodegradation of acetaminophen
🗓️ Year: 2024 | 🔍 Cited by: — | 🌞 Photodegradation | 🍃 Green Chemistry | 🧪 Nanomaterials

⚡ Achievement of an efficient oxygen reduction electrocatalyst based on carbon boosted with MnOx/MnCo₂O₄ with excellent electrocatalytic activity in neutral media
🗓️ Year: 2024 | 🔍 Cited by: 2 | 🔋 Electrocatalysis | 🌐 ORR | 🧪 Carbon-Based Materials

🧬 Synthesis of Ag and Mn/ZnO nanoparticles using a hydrothermal method – A brief study and their role in the electrocatalytic oxidation of glucose in alkaline media
🗓️ Year: 2023 | 🔍 Cited by: 12 | 🧫 Nanoparticles | 💉 Glucose Sensing | ⚗️ Hydrothermal Synthesis

🧠 Green Synthesis of Nonprecious Metal-Doped Copper Hydroxide Nanoparticles for Construction of a Dopamine Sensor
🗓️ Year: 2021 | 🔍 Cited by: 14 | 🌿 Green Synthesis | 🧠 Dopamine Detection | 🔬 Biomedical Sensor

🔷 High electrochemical detection of dopamine based on Cu-doped single-phase hexagonally ZnO plates
🗓️ Year: 2021 | 🔍 Cited by: — | ⚡ Electrochemical Sensor | 🔵 ZnO Nanoplates | 🧪 Metal Doping

☀️ The Effect of Different Dopants (Cr, Mn, Fe, Co, Cu, and Ni) on Photocatalytic Properties of ZnO Nanostructures
🗓️ Year: 2020 | 🔍 Cited by: — | 🧪 Photocatalysis | 🔧 Doping Effect | 🌱 Environmental Nanoscience

 

 

Xiansheng Tang | Trnsport phenomena | Best Researcher Award

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Dr. Xiansheng Tang | Transport phenomena | Best Researcher Award

Assistant Researcher at Qilu University of Technology, China.

Dr. Xiansheng Tang 🎓 is a dynamic young scientist specializing in semiconductor optoelectronic devices 💡🔬. He currently serves as an Assistant Researcher at the Laser Research Institute of Qilu University of Technology 🏫. A graduate of the prestigious University of Chinese Academy of Sciences🏅, Dr. Tang’s work revolves around flexible LEDs, GaN-based HEMTs, and light-extraction technologies📡. His studies on photogenerated carrier transport, VCSEL growth, and MBE-based material synthesis have led to breakthroughs in device efficiency and flexibility 🚀📈. With over a decade of academic and applied research experience, he has authored several high-impact papers in IEEE Photonics Journal, Optics Express, and Nanotechnology 📚. Dr. Tang’s passion for discovery and materials innovation continues to drive him toward new horizons in green energy, advanced LEDs, and next-gen photonic systems 🌍✨.

Professional Profiles📖

Scopus

ORCID

Education📚

Dr. Tang’s academic journey began at Shandong University 🎓 (2012–2016), where he earned his Bachelor of Science in physics ⚛️. He then advanced to pursue his Doctor of Science at the University of Chinese Academy of Sciences 🏅 (2016–2021), affiliated with the Institute of Physics, Chinese Academy of Sciences 🏛️. During his Ph.D., he worked extensively on epitaxial growth, light-extraction structures, and quantum well transport 🔍🧬. His doctoral training laid a robust foundation in photonic materials, optoelectronic simulation, and semiconductor device physics ⚙️📐. Throughout his academic tenure, he combined rigorous theoretical knowledge with hands-on cleanroom and lab experience 🧪🔧. His multidisciplinary education bridged physics, material science, and engineering, equipping him with powerful tools for device innovation and advanced research 📊💡. Dr. Tang’s educational background continues to shape his scientific contributions to flexible LED technology and solar energy harvesting ⚡.

Professional Experience💼

Since September 2021, Dr. Tang has served as an Assistant Researcher 🧑‍🔬 at the Laser Research Institute, Qilu University of Technology (Shandong Academy of Sciences) 🏢. His work spans R&D in LED technologies, including flexible AlGaInP-based red LEDs, GaN-based blue-green LEDs, and VCSEL fabrication 💡🔬. He has led and participated in key projects involving solar cell efficiency optimization, quantum well modeling, and MBE growth techniques 🌐⚗️. Dr. Tang has also contributed to the design and simulation of carrier transport behavior within advanced semiconductor junctions ⚡📊. His interdisciplinary collaboration efforts and in-lab fabrication techniques have enabled practical breakthroughs in flexible optoelectronic devices 🧪🔋. His commitment to both theoretical exploration and hands-on innovation positions him as a rising expert in next-generation photonic and energy systems 🚀. Through his academic-industrial partnerships, he continues to advance sustainable solutions and cutting-edge device development 🔍🌿.

Research Focus 🔍

Dr. Tang’s research focuses on semiconductor optoelectronic devices, with emphasis on LEDs, solar cells, and quantum well physics 💡⚛️. His main projects involve:
1️⃣ Flexible AlGaInP/GaN-based LEDs for next-gen displays and wearables
2️⃣ VCSEL fabrication and performance enhancement
3️⃣ Light extraction technologies like photonic crystals and hemisphere arrays 🌈🔍
4️⃣ Carrier transport modeling in PIN and quantum well structures
5️⃣ MBE growth and low-temp processing for material optimization 🔬🧪
6️⃣ Photonic crystal application in solar energy harvesting and incident-angle optimization ☀️
Through theoretical modeling and experimental validation, Dr. Tang advances device performance and integration 📈🧠. His research has direct implications in flexible electronics, energy-efficient lighting, and sustainable solar power systems 🌿⚙️. Combining quantum optics, materials engineering, and fabrication technology, he aims to solve real-world challenges in optoelectronics 🌍🚀.

Awards and Honors🏆

While formal honors are not listed in detail, Dr. Tang’s contributions to photonics and materials science 🌟 have earned him recognition through published research in top-tier international journals 📖🏅. His work has been featured in IEEE Photonics Journal, Optics Express, Nanotechnology, and other high-impact outlets, reflecting the quality and relevance of his contributions 📈✨. His doctoral studies at the Institute of Physics, Chinese Academy of Sciences 🏛️—a top Chinese research institute—further underscore his academic distinction. As a corresponding and first author on multiple papers, he has been trusted with leading experimental design and data interpretation 🎯📊. His projects in quantum confinement, photonic crystal optimization, and flexible LED fabrication have contributed to the growing body of knowledge in optoelectronics and energy-efficient devices 💡🔬. These academic milestones position him for future awards in innovation, sustainability, and technology leadership 🥇🌍.

Conclusion ✅

Dr. Xiansheng Tang is a strong candidate for the Best Researcher Award, particularly in the materials science and optoelectronics domain. His record of publications, innovative contributions to LED and solar technologies, and solid academic background position him well for recognition. Addressing areas like international engagement, tech transfer, and community involvement would further bolster his candidacy for future awards at a global level.

Publications to Noted📚

  • Study on the Quantum Confinement of Photo-Generated Carriers in Quantum Wells

    • Authors: Ding Ding; Weiye Liu; Jiaping Guo; Xinhui Tan; Wei Zhang; Lili Han; Zhaowei Wang; Weihua Gong; Xiansheng Tang

    • Citations: 1

    • Year: 2023

  • Improving the Performance of Solar Cells Under Non-Perpendicular Incidence by Photonic Crystal

    • Authors: Xiansheng Tang; Ziguang Ma; Wenqi Wang; Zhen Deng; Yang Jiang; Wenxin Wang; Hong Chen; Na Zhang; Kaiyun Huang; Chunhua Du; et al.

    • Year: 2021

  • Stripping GaN/InGaN Epitaxial Films and Fabricating Vertical GaN-Based Light‑Emitting Diodes

    • Authors: Xiansheng Tang; Ziguang Ma; Lili Han; Zhen Deng; Yang Jiang; Wenxin Wang; Hong Chen; Chunhua Du; Haiqiang Jia

    • Year: 2021

Rui Nie | Tribology | Best Researcher Award

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Assoc. Prof. Dr. Rui Nie | Tribology | Best Researcher Award

Associate Researcher at Ningbo Institute of Technology, China.

Dr. Rui Nie is a distinguished researcher at the Ningbo Institute of Technology, Beihang University, specializing in mechanical tribology and surface engineering. His work addresses the pressing challenges in aerospace actuation systems and spacecraft interfaces. Through interdisciplinary approaches, Dr. Nie has significantly advanced understanding of friction, wear, and lubrication behaviors in high-performance environments. He has contributed to projects like the “973 Program” and the Chang’e lunar missions. With deep insight into ultrasonic motors, piston pumps, and tribological systems, Dr. Nie has developed dynamic models, predictive algorithms, and innovative surface treatments. His contributions extend from theory to real-world application, exemplified by his involvement in multiple prototype generations of aerospace electro-hydraulic actuation systems. His collaborative research has been published in high-impact journals and recognized through competitive funding from major national foundations. A dynamic contributor to China’s cutting-edge aerospace innovation, Dr. Nie remains committed to pushing boundaries in tribology and material performance.

Professional Profiles📖

Scopus

ORCID

Education📚

Dr. Rui Nie has a rich academic background grounded in mechanical engineering and tribology. He earned his undergraduate and master’s degrees from the School of Mechanical Engineering, Shenyang University of Technology (2005–2019). During this period, he served as an intern at the Huachen Group and in the State Key Lab for Tunnel Boring Machines. From 2013 to 2019, he pursued his Ph.D. at Shenyang University of Technology, supported by joint training under the prestigious 973 Program at Nanjing University of Aeronautics and Astronautics. He expanded his international experience as a special research student at the Muroran Institute of Technology in Japan (2017–2018). Following this, he undertook a postdoctoral fellowship at NUAA’s School of Aeronautics and Astronautics (2019–2021). This diverse and intensive academic journey equipped Dr. Nie with multidisciplinary skills in surface mechanics, aerospace tribology, and machine learning applications.

Professional Experience💼

Dr. Rui Nie currently serves at Ningbo Institute of Technology, Beihang University, where he leads advanced research in tribology and aerospace surface systems. He has played key roles in projects involving ultrasonic motors for spacecraft, aviation electric pumps, and EHA systems, contributing to the development of three generations of aerospace prototypes. His work has addressed real-world challenges in high-speed oil-lubricated interfaces, solid-liquid composite lubrication, and surface texturing. Dr. Nie employs high-precision simulation, mechanical characterization, and machine learning to study friction behavior, wear resistance, and lubrication mapping. His collaborative research has led to patented technologies and has been published in top Q1 journals. He has been a core team member on major national projects, including the 973 Program, and his ultrasonic motor technology has been applied in Chang’e-4, Chang’e-5, and Mozi missions. He is an emerging leader in tribo-mechanical design and aerospace system optimization.

Research Focus 🔍

🔧 Dr. Rui Nie’s research centers on mechanical tribology, 🧪surface coating technologies, and 🚀aerospace actuation components. He explores three major areas:
1️⃣ Frictional behavior at interfaces — investigating the wear and lubrication mechanisms in high-speed, heavy-duty aerospace components such as aviation piston pumps.
2️⃣ Motion conversion mechanisms — modeling dynamic vibration and displacement behaviors in ultrasonic motor interfaces used in spacecraft.
3️⃣ Material-friction property mapping — using machine learning to correlate mechanical material properties with wear performance and friction coefficients.
His research also includes 🧴 coatings (DLC, nitrides), 🧬 nanolubricants (MXene, MoS₂, graphene), and 🖋️ texture design based on bio-mimetic and stress field analysis. These innovations are applied in low-wear friction pair systems, enhancing performance and durability. Dr. Nie’s goal is to deliver precision surface engineering solutions that improve reliability and energy efficiency in extreme environments.

Awards and Honors🏆

Dr. Rui Nie’s excellence in tribology and aerospace engineering has earned him multiple national and regional research grants, including two projects funded by the National Natural Science Foundation of China (52475048 & 52105062) and two from the Ningbo Natural Science Foundation (2024S001 & 2021J013). His contributions to the 973 Program, a landmark national scientific initiative, highlight his deep involvement in strategic technological advancements. Dr. Nie’s work on aerospace friction pairs and ultrasonic motors has directly supported Chang’e lunar missions and other high-profile projects in both aerospace and biomedical sectors. He has received institutional honors for innovation in mechanical design and contributions to tribology science, and he frequently serves as a reviewer for top-tier journals. His ability to translate theoretical research into applied technologies sets him apart in the Chinese engineering community. These achievements reflect his dedication to bridging the gap between academic rigor and engineering impact.

Conclusion ✅

Dr. Rui Nie undoubtedly qualifies as a top-tier candidate for the Best Researcher Award in Friction and Sealing. His multi-disciplinary research, experimental depth, and real-world contributions to aerospace systems make him a benchmark figure in tribology. Minor enhancements in international outreach and technology transfer visibility could elevate his already distinguished profile even further.

Publications to Noted📚

A prediction model of fluid–solid erosion wear in hydraulic spool valve orifice (Wear, 2024)

Authors: Li, D.; Liu, X.; Liao, H.; Bing, L.; Hou, P.; Nie, R.; Jiao, Z.

Citations: 12

Adaptive robust motion control for hydraulic load sensitive systems considering displacement dynamic compensation (ISA Transactions, 2024)

Authors: Qiu, Z.; Liu, X.; Wang, Z.; Chen, X.; Nie, R.

Citations: 1

Cascade control method for hydraulic secondary regulation drive system based on adaptive robust control (ISA Transactions, 2024)

Authors: Liu, X.; Wang, Z.; Qiu, Z.; Jiao, Z.; Chen, X.; Nie, R.

Comparative study on thermal-oxygen aging and tribological properties of carbon nanotubes and graphene sheet reinforced hydrogenated nitrile rubber composite materials (Journal of Materials Research and Technology, 2024)

Authors: Qian, C.; Wang, S.; Li, Y.; Nie, R.; Song, S.

Design and preparation of sulfur vulcanized polyamide 66 cross-linked nitrile butadiene rubber networked and its application in blending with graphene oxide (Materials Today Communications, 2024)

Authors: Li, X.; Li, Y.; Qian, C.; Wang, S.; Nie, R.

Experimental investigation of the annular gradient process for circular channels using laser powder bed fusion (Optics and Laser Technology, 2024)

Authors: Li, D.; Liu, X.; Hou, P.; Liao, H.; Yu, R.; Nie, R.; Jiao, Z.

Extended-state-observer-based pressure compensation anti-disturbance control method for hydraulic secondary regulation system (Nonlinear Dynamics, 2024)

Authors: Wang, Z.; Liu, X.; Mou, Q.; Qiu, Z.; Nie, R.; Jiao, Z.

Extended-State-Observer-Based Pressure Compensation Anti-Disturbance Control Method for Hydraulic Secondary Regulation System (SSRN, 2024)

Authors: Wang, Z.; Liu, X.; Mou, Q.; Qiu, Z.; Nie, R.; Jiao, Z.

Molecular dynamics and experimental study of mechanical and tribological properties of graphene-reinforced nitrile butadiene rubber–phenolic resin composites (Polymer Composites, 2024)

Authors: Li, Y.; Chen, Z.; Qian, C.; Wang, S.; Nie, R.

Simulation Analysis on Flow Field of Aircraft Hydraulics Bent Pipe with Guide Vane (Lecture Notes in Electrical Engineering, 2024)

Authors: Li, D.; Liu, X.; Nie, R.; Hou, P.; Liao, H.

Emad Aly | Nano-Fluid | Outstanding Scientist Award

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Prof. Emad Aly | Nano-Fluid | Outstanding Scientist Award

Head of the Department at Ain Shams University, Egypt.

Prof. Emad Hassan Aly is a globally recognized scholar in Applied Mathematics, currently serving as the Head of the Mathematics Department at Ain Shams University, Egypt. He has over 30 years of teaching and research experience across Egypt, Saudi Arabia, the UK, and India 🌍. His academic journey spans top-tier universities and international collaborations, making significant contributions to porous media modeling, nanofluid mechanics, and engineering mathematics 🔬📐. He holds multiple professorships and has authored 90+ Scopus-indexed publications with an H-index of 28 and over 2100 citations 📊. Prof. Aly is a two-time honoree on Stanford’s Top 2% Scientists List and frequently serves as a keynote speaker, international reviewer, and supervisor of MSc/PhD theses 🎓🗣️. His contributions bridge science and education, leaving a profound impact on global academic communities.

Professional Profiles📖

Scopus

ORCID

Google Scholar

Education📚

Prof. Aly began his academic career with a Bachelor of Science in Mathematics from Ain Shams University, Egypt, graduating top of his class with first-class honors 🎖️📚. He went on to earn a General Diploma and a Special Diploma in Science, specializing in Applied Mathematics. His excellence continued with a Master’s (MSc&Edu) on “Electrohydrodynamic Kelvin-Helmholtz Instability” and a second MSc by Research from the University of Leeds, UK, on computational porous media 🔍🧪. He achieved his Ph.D. in Applied Mathematics for Engineering from Loughborough University, UK, with a dissertation on soil–cooling tower interaction 🏗️🌡️. His international education across Egypt and the UK laid the groundwork for a dynamic academic career blending rigorous theory with practical engineering challenges. 🧠🌐

Professional Experience💼

Prof. Emad Aly’s experience spans over three decades of university-level teaching and international collaboration in Egypt, Saudi Arabia, the UK, and India. He has taught at Ain Shams University, King Abdulaziz University, Loughborough University, Leeds University, and REVA University, covering courses in calculus, differential equations, numerical analysis, and dynamical systems. His roles include Head of Department, Certified Trainer, and Manager of the Sustainable Professional Development Unit. He has supervised numerous MSc, PhD, and final-year engineering projects, contributing to student and faculty development globally 👨‍🏫🎓. Additionally, Prof. Aly has served on scientific and advisory boards for major international conferences and held Visiting Professorships, including at REVA University. His blend of academic leadership and cross-border teaching has made him a respected voice in mathematics education and applied research 📖🌍.

Research Focus 🔍

Prof. Aly’s research focuses on applied and computational mathematics with a strong emphasis on engineering and physical systems 🔍⚙️. His key areas include nanofluid mechanics, porous media flow, differential equations, and heat and mass transfer 🌡️📊. He specializes in both exact and numerical solutions for nonlinear partial differential equations, addressing complex problems in fluid dynamics, soil mechanics, and energy systems. His PhD and postdoctoral work at Loughborough University explored soil-structure interactions and cooling systems modeling, while his MSc from Leeds delved into computational fluid dynamics in porous materials 💧🧪. Prof. Aly also contributes to hybrid modeling in nanotechnology, proposing novel algorithms and simulation frameworks. He has secured multiple research grants and led 20+ funded projects as PI or Co-Author, particularly across Saudi universities. His research is not only theoretical but also application-driven, targeting real-world industrial and environmental challenges ♻️🏗️.

Awards and Honors🏆

Prof. Aly’s excellence has earned him prestigious accolades, including being named in Stanford University’s Top 2% Scientists List for three consecutive years (2022–2024) 🏅🌟. He received 7 Research Excellence Awards from King Abdulaziz University in Saudi Arabia for his outstanding contributions in applied mathematics. Internationally, he was honored with the Best Researcher Award in Nanomaterials (2023, India) and the ISSN Golden Prize for Applied Mathematics (2020, India) 🥇🧮. He holds a Certificate of Merit from India for his scientific impact and has received seven Certificates of Appreciation from Ain Shams University for raising its global research ranking 🎓📈. He actively participates in promotion and PhD evaluation committees across Egypt, Saudi Arabia, and India. These awards reflect his leadership, innovation, and global engagement in advancing mathematics and engineering science 🌐🧑‍🔬.

Conclusion ✅

Prof. Emad Hassan Aly is highly suitable for the Outstanding Scientist Award. His academic excellence, international reputation, mentorship, and strong scientific contributions make him a compelling candidate. He stands out not just as a prolific researcher, but also as a leader and educator shaping the next generation of mathematicians and engineers. With minor enhancements to visibility and translational impact, his profile aligns well with the highest standards of international scientific recognition.

Publications to Noted📚

Title: MHD flow and heat transfer near stagnation point over a stretching/shrinking surface with partial slip and viscous dissipation: hybrid nanofluid versus nanofluid

Authors: E.H. Aly, I. Pop

Citations: 234

Year: 2020

Title: MHD flow and heat transfer over a permeable stretching/shrinking sheet in a hybrid nanofluid with a convective boundary condition

Authors: E.H. Aly, I. Pop

Citations: 198

Year: 2019

Title: Exact analysis for the effect of heat transfer on MHD and radiation Marangoni boundary layer nanofluid flow past a surface embedded in a porous medium

Authors: E.H. Aly, A. Ebaid

Citations: 119

Year: 2016

Title: Mixed convection boundary-layer flow over a vertical surface embedded in a porous medium

Authors: E.H. Aly, L. Elliott, D.B. Ingham

Citations: 106

Year: 2003

Title: Exact solutions for the transformed reduced Ostrovsky equation via the F-expansion method in terms of Weierstrass-elliptic and Jacobian-elliptic functions

Authors: A. Ebaid, E.H. Aly

Citations: 97

Year: 2012

Title: Dual exact solutions of graphene–water nanofluid flow over stretching/shrinking sheet with suction/injection and heat source/sink: Critical values and regions with stability

Author: E.H. Aly

Citations: 86

Year: 2019

Title: Advances in the Adomian decomposition method for solving two-point nonlinear boundary value problems with Neumann boundary conditions

Authors: E.H. Aly, A. Ebaid, R. Rach

Citations: 79

Year: 2012

Title: Exact analytical solution of the peristaltic nanofluids flow in an asymmetric channel with flexible walls and slip condition: application to the cancer treatment

Authors: A. Ebaid, E.H. Aly

Citations: 78

Year: 2013

Title: Dynamics of water conveying SWCNT nanoparticles and swimming microorganisms over a Riga plate subject to heat source/sink

Authors: J.K. Madhukesh, G.K. Ramesh, E.H. Aly, A.J. Chamkha

Citations: 75

Year: 2022

Title: Influence of slip and convective boundary conditions on peristaltic transport of non-Newtonian nanofluids in an inclined asymmetric channel

Authors: H.M. Sayed, E.H. Aly, K. Vajravelu

Citations: 70

Year: 2016

Cheng Qian | Friction and Sealing | Best Researcher Award

Published on by MTE Awards

Prof. Dr. Cheng Qian | Friction and Sealing | Best Researcher Award

Research Associate at Ningbo Institute of Technology, China.

🎓 Qian Cheng is a dedicated Ph.D. candidate in Mechanical Engineering at Shenyang University of Technology, under the mentorship of Dr. Shijie Wang. He specializes in advanced material design, surface engineering, and tribology. His research integrates nanotechnology, molecular simulations, and experimental validation to enhance polymer composites’ mechanical and aging properties. Qian Cheng has a multidisciplinary approach, combining engineering principles with data-driven methodologies such as machine learning 🤖. With 9 SCI-indexed papers as a first/corresponding author and ongoing cutting-edge projects, he continues to make impactful contributions in the fields of polymer science and mechanical systems 🔬⚙️. Known for his rigorous analytical skills and international academic exposure, including time spent in Germany, Cheng aims to innovate smarter, more resilient materials for modern mechanical systems 🌍🧪.

Professional Profiles📖

Scopus

ORCID

Education📚

📚 Qian Cheng’s academic journey reflects a strong foundation in mechanical and materials engineering. He began his undergraduate studies in Mechanical Design, Manufacturing, and Automation at Shenyang University of Aeronautics and Astronautics (2011–2015) ✈️🔧. He then pursued a Master’s degree (2016–2019) and is now completing a Ph.D. in Mechanical Engineering (2019–2024) at Shenyang University of Technology 🏫⚙️. During his Master’s, he was selected for an international exchange program at the University of Ahlen, Germany (2018–2019) 🇩🇪, where he specialized in polymer science 🧫. His educational path combines theoretical knowledge and hands-on experimentation with simulation-based analysis. Cheng’s passion for learning and innovation is evident in his commitment to pushing boundaries in materials science and mechanical systems development. His global perspective and interdisciplinary training empower him to tackle complex engineering challenges using both traditional and advanced tools 🌐🛠️.

Professional Experience💼

Qian Cheng has built his research experience around a comprehensive integration of simulation and experimental mechanics. He has actively contributed to research projects focusing on improving tribological behavior and thermal-oxidative aging resistance in polymer nanocomposites. During his Ph.D., Cheng designed and conducted molecular dynamics simulations to analyze the influence of nanomaterial structures on rubber composites. He also participated in lab-based experiments for materials testing and validation, bridging theory with practice. His stint at the University of Ahlen gave him hands-on experience in international research and polymer analysis. In parallel with his research, he has collaborated with fellow researchers on developing machine learning models for material property prediction. His professional trajectory is marked by academic rigor, publication success, and technical fluency, preparing him to contribute significantly to the field of mechanical and materials engineering.

Research Focus 🔍

Qian Cheng’s research 🔍 revolves around mechanical engineering, polymer nanocomposites, and material simulation. His work focuses on thermo-oxidative aging, mechanical durability, and tribological properties of rubber-based nanomaterials 🧪🛞. Using molecular dynamics simulations, he evaluates how different nanofillers—like carbon nanotubes, graphene oxide, and molybdenum disulfide—impact the performance of nitrile butadiene rubber (NBR) composites 🔄🧬. In addition, Cheng incorporates machine learning to model material behavior, enabling predictive design for future applications 🤖📊. His studies aim to improve the reliability and efficiency of components used in high-friction, high-temperature environments—critical in aerospace, automotive, and machinery sectors ✈️🚗⚙️. He also explores surface engineering and multi-scale materials research, developing systems that integrate nano-level innovation with macro-level function. His ambition is to pioneer sustainable and smart materials for next-generation mechanical equipment 🌿🔧.

Awards and Honors🏆

While specific award names are not provided, Qian Cheng’s prolific publication record in JCR Q1 and Q2 journals like Journal of Materials Research and Technology (IF=6.4), Journal of Polymer Science, and Polymer Composites indicates scholarly excellence 📚🏅. His acceptance as a visiting scholar at the University of Ahlen, Germany , reflects international academic recognition. The consistent acceptance of his work in high-impact journals suggests his research is well-regarded in the scientific community. His research outputs contribute to major areas like nanomaterials, surface modification, and tribological enhancement—critical fields within mechanical and polymer engineering. Cheng’s work has been cited and used as reference for tribological material improvement and molecular simulation techniques, showcasing his growing influence 🌟📖. He is expected to be a strong contender for future research fellowships and innovation awards in engineering science and materials research 🏆🔬.

Conclusion ✅

Cheng Qian demonstrates outstanding potential and current achievements as a researcher in advanced polymer nanocomposites and material science. His deep understanding of simulation-driven material design, backed by strong experimental work and publication output, positions him as a highly deserving candidate for the Best Researcher Award 🏆. While areas like project leadership and industry engagement can be further developed, his profile is well-rounded, ambitious, and aligned with future-ready scientific innovation.

Publications to Noted📚

Synergistic Enhancement of Mechanical and Tribological Properties of Nitrile Butadiene Rubber With RD‐Modified GO and CNTs as Antioxidants: Experiments and Molecular Dynamics Simulations

Authors: Cheng Qian; Xiaochao Liu; Wenfu Zeng; Guofeng Zhang; Rui Nie

Year: 2025

Comparative Study of the Tribological Properties of Diamond-Like Carbon and Nitride Coatings Deposited on 40Cr Surfaces

Authors: Rui Nie; Zhuobiao Li; Wenfu Zeng; Cheng Qian; Yunlong Li

Year: 2025

Comparative study on thermal-oxygen aging and tribological properties of carbon nanotubes and graphene sheet reinforced hydrogenated nitrile rubber composite materials

Authors: Qian C.; Wang S.; Li Y.; Nie R.; Song S.

Year: 2024

Design and preparation of sulfur vulcanized polyamide 66 cross-linked nitrile butadiene rubber networked and its application in blending with graphene oxide

Authors: Li X.; Li Y.; Qian C.; Wang S.; Nie R.

Year: 2024

Molecular dynamics investigation on the thermal-oxidative aging and mechanical properties of nitrile butadiene rubber composites with molybdenum disulfide

Authors: Qian C.; Chen J.; Wang S.; Wang M.; Song S.

Year: 2024

Relationship between the aging thermal oxygen and mechanical properties of nitrile butadiene rubber reinforced by RD-loaded carboxylated carbon nanotubes

Authors: Wang M.; Li Y.; Qian C.; Wang S.; Liu D.

Year: 2024

Review on stator rubber of progressive cavity pump for oil extraction,采油螺杆泵定子橡胶研究综述

Authors: Wang S.; Chen Z.; Li Y.; Qian C.; Yang B.

Year: 2024

Molecular dynamics and experimental study of mechanical and tribological properties of graphene‐reinforced nitrile butadiene rubber–phenolic resin composites

Authors: Yunlong Li; Zhiju Chen; Cheng Qian; Shijie Wang; Rui Nie

Year: 2024

A fine-tuning deep residual convolutional neural network for emotion recognition based on frequency-channel matrices representation of one-dimensional electroencephalography

Authors: Chen J.; Cui Y.; Qian C.; He E.

Year: 2023

A Study on the Relationship between the Aging Thermal Oxygen and Mechanical Properties of Nitrile Rubber Reinforced by Rd Load Carboxylated Carbon Nanotubes

Authors: Wang M.; Li Y.; Qian C.; Wang S.; Liu D.

Year: 2023

Loredana Brinza | Environmental Chemistry | Best Researcher Award

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Assist. Prof. Dr. Loredana Brinza | Environmental Chemistry | Best Researcher Award

Senior Scientific Researcher at Alexandru Ioan Cuza University, Romania.

Dr. Loredana Brinza is a multidisciplinary scientist and Associate Professor at Alexandru Ioan Cuza University of Iasi 🏛️. She holds dual Ph.D. degrees in Chemical Engineering and Earth Sciences from “Gh. Asachi” University (Romania) and the University of Leeds (UK) respectively 🎓. With over two decades of international research experience 🌍, she has worked at prestigious institutions including Diamond Light Source and the University of Leeds . Her expertise bridges environmental geochemistry, biomineralization, and synchrotron-based characterization techniques 🔬. Dr. Brinza has authored over 29 peer-reviewed publications, delivered keynote talks 🗣️, and managed numerous international research grants. A passionate educator and scientific mentor, she also contributes to various academic journals and scientific committees worldwide 🌐.

Professional Profiles📖

Scopus

ORCID

Education📚

Dr. Brinza earned her Ph.D. in Earth Sciences from the University of Leeds, UK  (2010), and a second Ph.D. in Chemical Engineering from “Gh. Asachi” University, Romania  (2011). She also completed her M.Sc. in Environmental Management (2003) and B.Sc. in Environmental Engineering (2002) from the same Romanian university 🎓. Her educational background integrates geochemistry, mineralogy, biochemical engineering, and environmental process modeling, forming the foundation for her interdisciplinary approach to environmental science, chemical remediation, and synchrotron research 🧪. Her dual-doctorate trajectory has enabled her to combine engineering and earth science perspectives in solving complex environmental challenges 🌱.

Professional Experience💼

Dr. Brinza is currently a Scientific Researcher (senior since 2023) and Associate Professor at the Alexandru Ioan Cuza University of Iasi 🏫. She has held esteemed research positions in the UK including at the University of Leeds, Queen’s University Belfast, the University of Southampton, and the Diamond Light Source 💼. Her international fellowships focused on marine, environmental, and earth sciences 🌊. She has led and contributed to over 25 research grants, including 15 synchrotron beamline projects, serving as Principal Investigator for 10 of them. Her teaching portfolio spans geochemical modeling, chemical and biochemical process engineering, and environmental management, demonstrating her capacity to bridge theory and practice for both undergraduates and postgraduates 👩‍🏫.

Research Focus 🔍

Dr. Brinza’s research focuses on synchrotron-based microanalysis 🔍, biogeochemical cycling of metals, heavy metal uptake by algae, and mineral transformations in environmental systems 🌍. She integrates µ-XRF, µ-XAS, and µ-XRD techniques to study complex mineral interfaces and pollutant behavior at the micro- to nanoscale 📐. Her investigations cover both natural systems and engineered bioremediation strategies, contributing to a better understanding of metal sequestration, speciation, and environmental risk. She is also known for pioneering research in earthworm-mediated biomineralization 🪱 and cadmium/zinc uptake in aquatic plants. Her work aims to deliver sustainable and science-based solutions for environmental contamination and resource recovery ♻️.

Awards and Honors🏆

Dr. Brinza’s academic excellence is reflected in her H-index of 15 and over 750 citations 📊. She has received 7 international research grants, 15 synchrotron beamline awards, and 3 national projects, many under her leadership 🥇. She has been invited as a keynote speaker at renowned conferences and research institutions like the National Institute of Material Physics (Romania) and Durham University (UK) 🧠. Her work has gained visibility through international conferences, specialized symposiums, and high-impact journals 📚. She is also an active reviewer for leading publications such as Applied Geochemistry, Langmuir, and the Journal of Environmental Management, and contributes to professional societies like EAG, IXAS, and EMG-MINSOC 🌐.

Conclusion ✅

Dr. Loredana Brinza clearly fulfills and exceeds the expectations for the Best Researcher Award. Her multi-disciplinary, internationally recognized research—especially in the field of synchrotron science, biogeochemistry, and environmental mineralogy—demonstrates both leadership and scientific innovation. Her academic productivity, research excellence, and global collaborations make her a top-tier candidate for this prestigious recognition

Publications to Noted📚

Qualitative and quantitative investigations of Cr (VI) uptake by amorphous nanoparticulate ferrites doped with organic chelating agents

Authors: Cristina Giorgiana Coromelci; Andreea Elena Maftei; Maria Ignat; Loredana Brinza

Citations: 2

Year: 2025

Amorphous iron oxyhydroxides nano precursors used for Reactive Yellow 84 removal from aqueous solutions

Authors: Cristina Giorgiana Coromelci; Andreea Elena Maftei; Mariana Neamtu; Gabriel Ababei; Loredana Brinza

Year: 2024

Nanocrystalline structured ethylene glycol doped maghemite for persistent pollutants removal

Authors: Andreea Elena Maftei; Imad A. M. Ahmed; Mariana Neamtu; Cristina Giorgiana Coromelci; Maria Ignat; Loredana Brinza

Year: 2023

Advanced removal of Reactive Yellow 84 azo dye using functionalised amorphous calcium carbonates as adsorbent

Authors: Loredana Brinza; Andreea Elena Maftei; Sorin Tascu; Florin Brinza; Mariana Neamtu

Year: 2022

Surface Coverage Simulation and 3D Plotting of Main Process Parameters for Molybdenum and Vanadium Adsorption onto Ferrihydrite

Authors: Loredana Brinza

Year: 2022

The Irish kelp, Fucus vesiculosus, a highly potential green biosorbent for Cd (II) removal: Mechanism, quantitative and qualitative approaches

Authors: Loredana Brinza; Kalotina Geraki; Adriana Matamoros‑Veloza; Maria Ignat; Mariana Neamtu

Citations: 20

Year: 2021

Geochemical investigations of noble metal-bearing ores: Synchrotron-based micro-analyses and microcosm bioleaching studies

Authors: Loredana Brinza; Imad Ahmed; Carmen‑Madalina Cismasiu; Ioan Ardelean; Iuliana Gabriela Breaban; Florica Doroftei; Konstantin Ignatyev; Cristina Moisescu; Mariana Neamtu

Year: 2021

Iron phthalocyanine‑sensitized magnetic catalysts for BPA photodegradation

Authors: Mariana Neamtu; Claudia Nadejde; Loredana Brinza; Oana Dragos; Daniela Gherghel; Andrea Paul

Year: 2020

Baltic Fucus vesiculosus as potential biosorbent for Zn removal: Mechanism insight

Authors: Loredana Brinza; Kalotina Geraki; Corneliu Cojocaru; Susan Løvstad Holdt; Mariana Neamtu

Year: 2020

Zn adsorption onto Irish Fucus vesiculosus: Biosorbent uptake capacity and atomistic mechanism insights

Authors: Loredana Brinza; Kalotina Geraki; Iuliana G. Breaban; Mariana Neamtu

  1. Citations: 20

Year: 2019

Shahida Kanwel | Smart Materials | Best Researcher Award

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Dr. Shahida Kanwel | Smart Materials | Best Researcher Award 

Postdoctoral Researcher at Jiangsu University, China.

🌟 Dr. Shahida Kanwel is a dedicated Postdoctoral Researcher at the School of Management, Jiangsu University, China. She earned her Ph.D. in Business Management from Zhejiang University 🎓 and has since become a prominent voice in digital tourism, public health, and consumer behavior research. With over 542 citations, 13 SSCI/SCI publications, and international collaborations, Dr. Kanwel integrates psychological, behavioral, and environmental frameworks into her work 🌐💼.

She has contributed to both academia and industry, notably with the Hangzhou Global Cheongsam Day initiative 🎭 and healthcare service quality studies 🏥. Recognized with the Jiangsu Excellent Postdoctoral Program Award (2024) 🏅, she continues to publish impactful work and review for top-tier journals such as Scientific Reports and Frontiers in Public Health. Dr. Kanwel is a passionate researcher shaping the intersection of tourism, satisfaction, and sustainability 🌿📈.

Professional Profiles📖

Scopus

ORCID

Google Scholar

Education 🎓

📘 Ph.D. in Business Management

  • Zhejiang University, China.

  • Research focused on behavioral models in tourism, sustainability, and digital platforms 🌐✨

📘 Postdoctoral Research

  • Jiangsu University, School of Management 🏛️

  • Focus on interdisciplinary approaches combining SOR, TPB, and customer satisfaction frameworks 📊

📚 Throughout her academic journey, Dr. Kanwel has maintained high academic standards, published extensively in SSCI journals, and engaged in policy-relevant projects across China and Pakistan 🌍📑.

Professional Experience💼

Postdoctoral Researcher (2023–Present)

  • Jiangsu University, China.

  • Leading research in digital tourism, hospital satisfaction, and tourist behavioral models

Research Assistant / Lecturer

  • Experience in delivering undergraduate and postgraduate management courses

  • Guided students in research writing and publication 📚🖋️

Consultancy/Industry Experience

  • Worked on China’s Hangzhou Global Cheongsam Day project (2019–2020) 👘

  • Involved in applied research on healthcare service quality and environmental satisfaction in Pakistan and China 🌏

Research Focus 🔍

🥇 Jiangsu Excellent Postdoctoral Program Award (2024) – Awarded under Jiangsu’s Talent Fund Initiative for research excellence in postdoctoral studies.
🏵️ Honored by the Hangzhou Municipal Bureau of Culture during Hangzhou Global Cheongsam Day 2020 for cultural and academic contribution 🎭.
🌟 Recognized by academic reviewer boards and editorial panels for research quality and peer-review excellence.
📝 Editorial reviewer for top-tier journals including Scientific Reports, BMC Health Services, Current Psychology, and Frontiers in Public Health.

Awards and Honors

🧭 Dr. Kanwel’s interdisciplinary research bridges tourist behavior, digital satisfaction, and public health service delivery 🧠🌐.
📈 Her work models behavioral intention using SOR (Stimulus–Organism–Response) and TPB (Theory of Planned Behavior), enhancing customer experience design in tourism and health care sectors 🏞️🏥.
🗺️ She studies environmental sustainability, emotional engagement, and social media’s role in tourist behavior, particularly in developing and emerging markets 🌿📱.
🤝 Her research has high practical value for destination managers, hospital administrators, and policy-makers, contributing to improved satisfaction, loyalty, and environmental awareness.

Conclusion ✅

Dr. Shahida Kanwel demonstrates a clear trajectory of excellence, interdisciplinary innovation, and rising global impact. Her research addresses critical societal issues at the intersection of digital transformation, behavioral science, and tourism—areas of increasing importance in today’s academic and policy landscapes. Her strong citation record, editorial roles, and international collaborations highlight her as an emerging thought leader.

Despite minor areas for development in scholarly output formats (books/patents) and international project leadership, her academic depth, innovation, and societal contributions make her an outstanding candidate for the Best Researcher Award.

Publications to Noted📚

The influence of destination image on tourist loyalty and intention to visit: Testing a multiple mediation approach

Authors: S. Kanwel, Z. Lingqiang, M. Asif, J. Hwang, A. Hussain, A. Jameel

Journal: Sustainability 11(22), 6401

Citations: 289

Year: 2019

The effect of “women’s empowerment” on child nutritional status in Pakistan

Authors: A. Shafiq, A. Hussain, M. Asif, J. Hwang, A. Jameel, S. Kanwel

Journal: International Journal of Environmental Research and Public Health 16(22), 4499

Citations: 77

Year: 2019

Promoting OPD patient satisfaction through different healthcare determinants: A study of public sector hospitals

Authors: A. Hussain, M. Asif, A. Jameel, J. Hwang, N. Sahito, S. Kanwel

Journal: International Journal of Environmental Research and Public Health 16(19), 3719

Citations: 74

Year: 2019

Impact of tourism satisfaction and service quality on destination loyalty: A structural equation modeling approach concerning China resort hotels

Authors: A. Hussain, M. Li, S. Kanwel, M. Asif, A. Jameel, J. Hwang

Journal: Sustainability 15(9), 7713

Citations: 46

Year: 2023

Determinants of gender disparity in nutritional intake among children in Pakistan: Evidence from PDHS

Authors: A. Shafiq, A. Hussain, M. Asif, A. Jameel, S. Sadiq, S. Kanwel

Journal: Children 9(1), 7

Citations: 25

Year: 2021

The mediating effects of perceived usefulness and perceived ease of use on nurses’ intentions to adopt advanced technology

Authors: A. Hussain, M. Zhiqiang, M. Li, A. Jameel, S. Kanwel, S. Ahmad, B. Ge

Journal: BMC Nursing 24(1), 33

Citations: 14

Year: 2025

Green growth, economic development, and carbon dioxide emissions: an evaluation based on cointegration and vector error correction models

Authors: Y. Sun, M. Li, H. Sun, S. Kanwel, M. Zhang, N. Erum, A. Hussain

Journal: Energies 15(10), 3767

Citations: 9

Year: 2022

The influence of hospital services on patient satisfaction in OPDs: evidence from the transition to a digital system in South Punjab, Pakistan

Authors: S. Kanwel, Z. Ma, M. Li, A. Hussain, N. Erum, S. Ahmad

Journal: Health Research Policy and Systems 22(1), 93

Citations: 7

Year: 2024

Antecedents of Patient Loyalty: Exploring Mediating and Moderating Paradigms in Public Hospitals

Authors: A. Hussain, S. Kanwel, S. Khan, W.B. Alonazi, A. Malik, A.A. Khan

Journal: Patient Preference and Adherence, 527–542

Citations: 1

Year: 2025

Aleksandar Savic | Sustainable Metal | Best Researcher Award

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Assoc. Prof. Dr. Aleksandar Savic | Sustainable Metal | Best Researcher Award

Associate Professor at University of Belgrade Faculty of Civil Engineering, Serbia.

Dr. Aleksandar Savić is an Associate Professor at the Faculty of Civil Engineering, University of Belgrade. He earned his Ph.D. in Civil Engineering with a focus on self-compacting concrete incorporating industrial by-products. With over 20 years of academic and professional experience, he has contributed significantly to construction materials science, particularly sustainable materials. Dr. Savić has authored over 150 scientific papers, including 13 in SCI-indexed journals, and several textbooks and technical publications. He has led or participated in national and international research projects and contributed to technical regulations in Serbia. Dr. Savić also serves as Technical Manager of the accredited Materials Laboratory and is involved in several university and ministry committees. A licensed engineer and internal auditor, he is a recognized reviewer and conference speaker. He is married with two children and fluent in English, with working knowledge of Russian and German.

Professional Profiles📖

Scopus

ORCID

Education 🎓

Dr. Aleksandar Savić completed his elementary and high school in Belgrade by 1997 and earned his B.Sc. in Civil Engineering in 2004 with a thesis on arch bridge design using self-compacting concrete. He received faculty and Embassy of Norway awards for academic excellence. He enrolled in doctoral studies in 2007 at the University of Belgrade, becoming the first doctoral student in Civil Engineering under the new study program. His dissertation titled “Investigation of the properties of fresh and hardened self-compacting concrete with mineral additives based on industrial by-products” in 2015. His advanced studies focused on innovative, eco-friendly construction materials, positioning him as a pioneer in sustainable civil engineering education. His educational journey combines excellence, pioneering achievement, and a deep focus on material science and green construction.

Professional Experience💼

Dr. Savić began his academic career in 2005 at the Faculty of Civil Engineering, University of Belgrade. He also served in the Supervision Service of Belgrade Waterworks during his military service. Rising through the academic ranks, he became an Assistant Professor in 2015 and Associate Professor in 2020. He teaches undergraduate, master’s, and doctoral courses on construction materials, concrete technology, and sustainable construction. He has mentored over 100 final theses and participated in numerous doctoral committees. He manages the accredited Materials Laboratory and contributes to Serbia’s construction standards through ministry-appointed roles. A dedicated educator and administrator, Dr. Savić has also led student research and participated in national competitions. He co-authored textbooks and lab manuals, significantly enhancing the teaching process. As an internal quality auditor and ISO coordinator, his experience spans academia, research, quality assurance, and industry collaboration, reflecting his comprehensive impact in civil engineering education and practice.

Research Focus 🔍

Dr. Aleksandar Savić specializes in construction materials science with an emphasis on self-compacting concrete (SCC), recycled aggregates, and sustainable construction. His research incorporates a phenomenological and structuralist approach, centered on laboratory testing and optimization of eco-friendly construction materials. He investigates the integration of alternative materials such as fly ash, blast furnace slag, powdered glass, recycled rubber, and biochar into concrete, mortar, and cement composites. He is also active in geopolymers and bio-fiber thermal insulation materials. His work supports circular economy principles, green infrastructure, and climate-resilient urban development. Dr. Savić’s testing spans fresh and hardened concrete, as well as full-scale structural elements, aligning with both academic and applied engineering goals. Through over 150 published works and leadership in national projects, his research promotes innovation in green building practices and enhances construction sustainability and durability. He also contributes to technical regulations and sustainable material certification in Serbia.

Awards and Honors

Dr. Aleksandar Savić has received multiple prestigious awards recognizing his excellence in civil engineering and academia. He was honored during his undergraduate studies with a faculty award and the Embassy of Norway Award in 2002 for outstanding performance. He has twice been recognized as an Outstanding Reviewer for journals indexed in the SCI list. Additionally, his mentorship led to student accolades, including a University of Belgrade award for extracurricular student research. As President of the Organizing Committee, he successfully hosted the International Conference on Renewable Energy Sources in 2022 and 2023. He has served as keynote speaker and given invited lectures at notable international venues, including the University of Banja Luka. Furthermore, his active role in quality assurance contributed to the successful ASIIN accreditation of the Civil Engineering program in 2024. His leadership in sustainable construction has established him as a respected authority nationally and internationally.

Conclusion ✅

Dr. Aleksandar Savić’s track record of academic excellence, research leadership, innovation, and educational contributions places him as an exceptional candidate for the Best Researcher Award. His commitment to sustainable construction, education, and societal impact makes his work highly relevant and globally significant. While there’s scope to elevate his presence in global-scale collaborations and commercialization, his credentials already exceed the typical benchmarks for this honor.

Publications to Noted📚

Title: Comparative Analysis of Concrete Compressive Strength and Water Impermeability – Case Study for One Bridge Structure
📅 Year: 2025
✍️ Authors: Aleksandar Radević, Marko Samardžić, Marina Škondrić, Aleksandar Savić, Dragica Jevtić

Title: Comparative Analysis of Concrete with Portland Composite Cements with Reduced Clinker Content
📅 Year: 2025
✍️ Authors: Sanja Ćorić, Marina Škondrić, Aleksandar Radević, Aleksandar Savić, Marko Stojanović

Title: Experimental Analysis of Exposed Concrete Slabs Through Image Analysis
📅 Year: 2025
✍️ Authors: Danica Đukić, Gvozden Jovanović, Marina Škondrić, Aleksandar Radević, Aleksandar Savić, Dragica Jevtić

Title: Methods of Testing Systems for Strengthening Masonry Structures Based on Cement Composites Reinforced with Glass Fiber Mesh
📅 Year: 2025
✍️ Authors: Milica Petrović, Marko Popović, Marina Škondrić, Aleksandar Savić, Dimitrije Zakić
📝 Journal: Gradjevinski materijali i konstrukcije

Title: Advanced Sulfur-Polymer Composites for Sustainable Construction: Optimized Production and Structural Performance under Acidic Exposure
📅 Year: 2025 (July)
✍️ Authors: Milica Vlahović, Kong Fah Tee, Nenad Vušović, Aleksandar Savić, Jovanka Pejić, Nataša Đorđević
📝 Journal: Construction and Building Materials

Title: Sustainable Lightweight Concrete Designed with Modified Solidified Wastewater Sludge as Partial Replacement of Cement
📅 Year: 2025 (January 24)
✍️ Authors: Marina Škondrić, Aleksandar Radević, Aleksandar Savić, Zorana Naunović, Željko Radovanović, Snežana Svetozarević, Vladana Rajaković-Ognjanović
📝 Journal: Sustainability

Title: Examination of the Influence of the Applied Test Method on the Adhesion Between Steel Reinforcement and Concrete
📅 Year: 2024
✍️ Authors: Milica Stojanović, Marina Škondrić, Aleksandar Radević, Marko Popović, Aleksandar Savić, Dimitrije Zakić, Dragica Jevtić

Title: Pelletization of Fly Ash for Utilization in Dynamic Sorption Processes
📅 Year: 2024
✍️ Authors: Milica Vlahović, Nataša Djordjević, Nenad Vušović, Milan Vlahović, Jelena Avramović, Nikola Veljković, Aleksandar Savić
📝 Journal: Podzemni radovi

Title: Determination of the Salt Distribution in the Lime-Based Mortar Samples Using XRF and SEM-EDX Characterization
📅 Year: 2023
✍️ Authors: Marina Aškrabić, Dimitrije Zakić, Aleksandar Savić, Ljiljana Miličić, Ivana Delić-Nikolić, Martin Vyšvařil
📖 Book Chapter

Title: Development of Low Carbon and Energy-Efficient Geopolymer-Based Paving Blocks
📅 Year: 2023
✍️ Authors: Ivana Jelić, Aleksandar Savić, Tatjana Miljojčić, Marija Šljivić-Ivanović, Slavko Dimović, Marija Janković, Ivana Perović, Dimitrije Zakić, Dragi Antonijević
📝 Journal: Science of Sintering