Mohd Hasan Mujahid | Nanomaterials | Innovative Research Award

Published on by Metallurgical Engineering

Innovative Research Award

Mohd Hasan Mujahid
Affiliation Indian Institute of Technology Roorkee
Country India
Scopus ID 57450063700
Documents 12
Citations 191
h-index 5
Subject Area Nanomaterials
Event Metallurgical Engineering Awards
ORCID 0000-0003-3115-7855

Mohd Hasan Mujahid

Indian Institute of Technology Roorkee, India

Mohd Hasan Mujahid is a researcher working at the intersection of nanomaterials, nanobiotechnology, polymer-based drug delivery systems, cancer biology, and biomedical applications. His academic and research activities encompass nanomaterial synthesis, phytochemical characterization, tissue engineering, therapeutic delivery technologies, and translational biomedical research. Through scholarly publications, conference presentations, and interdisciplinary collaborations, he has contributed to advancing knowledge in nanomaterials and their applications in healthcare and biotechnology.[1]

Abstract

Mohd Hasan Mujahid, a researcher affiliated with the Indian Institute of Technology Roorkee whose work focuses on nanomaterials, nanobiotechnology, polymer-based drug delivery, cancer therapeutics, tissue engineering, and phytochemical-derived biomedical technologies. His research portfolio includes the development of bioactive nanomaterials, investigation of phytochemical compounds with therapeutic potential, and exploration of advanced biomaterials for healthcare applications. The scholarly record demonstrates contributions to interdisciplinary research integrating materials science, biotechnology, and biomedical engineering while addressing contemporary challenges in therapeutic delivery and disease management.[2]

Keywords

Nanomaterials; Nanobiotechnology; Polymer Drug Delivery; Cancer Biology; Tissue Engineering; Biomedical Applications; Phytochemicals; Therapeutic Nanotechnology; Biomaterials; Nanomedicine.

Introduction

Research in nanomaterials and biomedical engineering has become increasingly important for the development of advanced therapeutic technologies, precision medicine, and sustainable healthcare solutions. The integration of material science, biotechnology, and pharmaceutical sciences has enabled innovative approaches for disease diagnosis, targeted drug delivery, and regenerative medicine. Within this interdisciplinary landscape, Mohd Hasan Mujahid has pursued research focused on nanomaterial synthesis, bioactive phytocompounds, and biomedical applications that contribute to the broader advancement of translational science.[3]

Research Profile

Mohd Hasan Mujahid currently serves as a Post-Doctoral Fellow at the Department of Polymer and Process Engineering, Indian Institute of Technology Roorkee. His academic training includes a Ph.D. in Biochemistry and extensive experience in nanobiotechnology, cancer biology, animal cell culture, polymeric drug delivery systems, and tissue engineering. His professional activities span laboratory research, scientific publication, conference participation, and interdisciplinary collaborations involving nanomaterials and biomedical technologies.[1]

Research Contributions

Mohd Hasan Mujahid encompass the synthesis and characterization of metallic and metal oxide nanomaterials, development of polymeric delivery platforms, exploration of phytochemical-based therapeutic agents, and evaluation of biomaterials for biomedical applications. His studies have investigated antioxidant, antimicrobial, antidiabetic, and anticancer properties of natural compounds while integrating experimental and computational methodologies to understand biological activity and therapeutic potential.[2]

Publications

The publication record includes peer-reviewed journal articles, review papers, and collaborative research contributions in biomedical nanotechnology, biomaterials, cancer therapeutics, and pharmaceutical sciences. Representative publications include studies on metallic nanohybrids, nanonutraceuticals, phytochemical bioactivity, biomedical nanomaterials, and nanoparticle-mediated therapeutic applications.[4]

  1. Metallic and Metal Oxide-Derived Nanohybrid as a Tool for Biomedical Applications.
  2. Recent Advancements in Plant-Derived Nanomaterials Research for Biomedical Applications.

Research Impact

Mohd Hasan Mujahid is reflected through peer-reviewed publications, scholarly citations, interdisciplinary collaborations, conference presentations, and ongoing investigations into nanomaterial-enabled healthcare technologies. His work contributes to understanding how engineered nanomaterials and bioactive natural compounds may support future biomedical innovations, particularly in drug delivery and therapeutic development.[3]

Award Suitability

The Innovative Research Award recognizes researchers demonstrating originality, interdisciplinary impact, and sustained scholarly engagement. Mohd Hasan Mujahid’s academic profile aligns with several of these characteristics through contributions to nanomaterials, biomedical engineering, drug delivery technologies, and translational research. His publication record, conference participation, research leadership activities, and involvement in innovative biomedical investigations collectively support consideration for recognition within research-oriented award frameworks.[3]

Conclusion

Mohd Hasan Mujahid has established a multidisciplinary research profile centered on nanomaterials, nanobiotechnology, biomaterials, and therapeutic delivery systems. Through scholarly publications, collaborative research initiatives, and scientific dissemination activities, he has contributed to ongoing developments in biomedical science and nanotechnology. His work reflects the growing importance of interdisciplinary approaches in addressing healthcare challenges and advancing innovative scientific solutions.[4]

References

    1. Elsevier. (n.d.). Scopus author details: Mohd Hasan Mujahid, Author ID 57450063700. Scopus.
      https://www.scopus.com/authid/detail.uri?authorId=57450063700
    2. Mujahid, M.H. et al. (2022). Metallic and metal oxide-derived nanohybrid as a tool for biomedical applications. Biomedicine & Pharmacotherapy.
      https://doi.org/10.1016/j.biopha.2022.113791
    3. Mujahid, M.H. et al. (2025). Quinones: A Privileged Moiety for Drug Discovery. Understanding Quinones with Reference to Biochemistry.
      https://www.benthamdirect.com/content/books/9798898810276.chapter-8
    4. Mujahid, M.H. et al. (2022). Recent Advancements in Plant-Derived Nanomaterials Research for Biomedical Applications. Processes.
      https://doi.org/10.3390/pr10020338

Abdelhadi Kassiba | Photoactive Nanomaterials | Innovative Research Award

Published on by Metallurgical Engineering

Prof. Dr. Abdelhadi Kassiba | Photoactive Nanomaterials | Innovative Research Award

Professor at IMMM, Institut des Molรฉcules et Matรฉriaux du Mans | France

Prof. Dr. AbdelHadi Kassiba is a leading innovator in condensed matter physics and functional nanomaterials, with pioneering contributions to wide bandgap semiconductors, nanocomposites, and photoactive oxides. His research combines advanced spectroscopic techniques with materials physics to uncover structureโ€“property relationships critical for nonlinear optics, electro-optics, environmental remediation, and renewable energy applications. The originality and interdisciplinary nature of his work have resulted in strong global impact and scientific recognition. His Scopus profile reflects this influence, with 139 peer-reviewed publications, 2,766 citations, and an h-index of 29, demonstrating sustained research productivity, innovation, and long-term scholarly impact suitable for the Innovative Research Award.

Citation Metrics

3000

2000

500

100

0

Citations
2766

Documents
139

h-index
29

Featured Publications

Dr. Gum-Chol Jang | Nanotechnology | Best Researcher Award

Published on by Metallurgical Engineering

Dr. Gum-Chol Jang | Nanotechnology | Best Researcher Award

Researcher at Kim Chaek University of Technology, North Korea.

Dr. Gum-Chol Jang is a dynamic researcher in the field of nanomaterials, currently serving at the Institute of Nanoscience and Nanotechnology, Kim Chaek University of Technology. ๐Ÿซ His academic journey began in 2009, and since then, he has established himself as a dedicated scientist, particularly in nanofiber development and microwave-assisted technologies. ๐ŸŒ His early fascination with material sciences matured into an intensive focus on electrospinning techniques to fabricate antibacterial nanofibers. ๐Ÿงช After obtaining his Ph.D. in Nano Materials Engineering in 2021, Dr. Jang continued to pursue innovative, real-world solutions through applied nanotechnology. His research combines experimental and computational approaches to refine electrospinning parameters, ensuring uniformity and quality in nanofiber production. โš™๏ธ With a commitment to sustainability, precision, and health applications, he contributes to shaping the future of nanomaterials through groundbreaking research, cross-disciplinary collaborations, and high-impact publications. ๐ŸŒŸ His expertise reflects a perfect blend of theoretical knowledge and technical skills. ๐Ÿ“š

Professional Profiles๐Ÿ“–

Scopus

Education๐Ÿ“š

Dr. Gum-Chol Jang embarked on his academic journey at the Faculty of Materials Science and Technology, Kim Chaek University of Technology, from 2009 to 2015. ๐Ÿซ There, he laid a strong foundation in materials science, emphasizing innovative applications and sustainable engineering. From 2015 to 2018, he pursued his Masterโ€™s degree in Nano Materials Engineering, concentrating on nanotechnology-based applications and fine-tuning electrospinning methods. ๐Ÿ”ฌ His academic excellence and research-oriented mindset led him to continue into doctoral studies at the same institution. In 2021, he earned a Doctorate in Nano Materials Engineering, specializing in nanofiber development and microwave heating techniques. ๐ŸŒก๏ธ His academic progression reflects deep immersion in material design, nanostructures, and fiber processing technologies. Dr. Jang’s strong theoretical understanding, combined with hands-on research experience throughout his academic journey, has equipped him with an exceptional skill set to lead cutting-edge advancements in nanotechnology and materials science. ๐ŸŽ“๐Ÿ”

Professional Experience๐Ÿ’ผ

Since 2018, Dr. Jang has been an integral part of the Institute of Nanoscience and Nanotechnology, where he has worked on high-impact projects relating to electrospinning, antibacterial nanofibers, and microwave-based material treatment. ๐Ÿงซ His work focuses on optimizing the electrospinning process for consistent fiber morphology and field uniformity, enabling precise and scalable nanofiber production. ๐ŸŒ Dr. Jang’s experience bridges academic research and practical innovation, contributing to real-world solutions in disinfection, filtration, and biomedical material design. โš™๏ธ He has led and participated in multiple collaborative projects, refining experimental protocols and utilizing computational tools such as the Taguchi method to improve electrode configurations. ๐Ÿ–ฅ๏ธ His expertise in using microwave technology for sterilization and drying has opened new avenues for energy-efficient material processing. Through his role as a researcher, he continues to contribute valuable insights and technologies, helping to place his institute at the forefront of nanotechnology innovation. ๐Ÿš€

Research Focus ๐Ÿ”

Dr. Jangโ€™s research is focused on the development of nanofibers through electrospinning technology, particularly for antibacterial and environmental applications. ๐Ÿงต His studies aim to understand and control the electrostatic forces around spinneret needles to improve fiber consistency and quality in multi-needle setups. ๐Ÿ’ก By employing optimization methods such as the Taguchi technique, he contributes to better scalability and efficiency in nanofiber production. Additionally, he explores the use of microwave heating as an innovative approach for disinfection and drying of materials, offering energy-efficient alternatives in material processing. ๐Ÿ”ฌ His work is interdisciplinary, combining nanoscience, electrostatics, materials engineering, and applied physics. Dr. Jangโ€™s long-term goal is to enhance material performance and sustainability in healthcare, environmental remediation, and industrial filtration. ๐ŸŒ His research not only supports theoretical advancement but also aligns with global efforts toward safer, cleaner, and more efficient technologies. ๐ŸŒŸ

Conclusion โœ…

Dr. Gum-Chol Jang is a highly motivated and technically skilled researcher in the field of nanomaterials, particularly nanofibers and microwave applications. His work is scientifically sound and socially relevant, especially in areas like antibacterial materials and thermal treatment. While he is still in the early stages of his research career, his current contributions and academic rigor position him as a strong contender for the Best Researcher Award. With continued publishing, networking, and innovation, Dr. Jang is poised to become a leading figure in nanotechnology research.

Publications to Noted๐Ÿ“š

Title: Optimization of parameters of auxiliary electrodes for electric field uniformity around spinneret needles in multi-needle electrospinning by using Taguchi method
Authors: Gumโ€‘Chol Jang, Dongโ€‘Chol Im, Yongโ€‘Ho Pak
Year: 2025