Shahzad Ahmed | Sensors | Research Excellence Award

Research Excellence Award

Shahzad Ahmed
Indian Institute of Technology Jodhpur, India

Shahzad Ahmed
Affiliation Indian Institute of Technology Jodhpur
Country India
Scopus ID 57349086600
Documents 42
Citations 1,112
h-index 20
Subject Area Sensors
Event Metallurgical Engineering Awards
ORCID 0000-0002-5121-4506

Shahzad Ahmed is an Indian materials scientist whose research primarily focuses on nanostructured materials, electrochemical sensing technologies, two-dimensional materials, conducting polymers, and hybrid biosensor platforms. His scholarly work spans food quality assessment, biomedical sensing, energy storage materials, optoelectronic devices, and advanced functional nanomaterials. With extensive publications, international collaborations, patent activity, and interdisciplinary research experience, he has established a significant academic profile in materials engineering and sensor science.[1]

Abstract

Shahzad Ahmed’s research integrates nanotechnology, electrochemistry, semiconductor engineering, and advanced functional materials to develop innovative sensing platforms for healthcare, environmental monitoring, and food quality evaluation. His work encompasses borophene, graphene, MoS₂, MXenes, conducting polymers, molecularly imprinted polymers, porous silicon, and hybrid nanocomposites. Through collaborations across India, Taiwan, China, and the United States, he has contributed extensively to the advancement of electrochemical biosensors and nanostructured materials.[2]

Keywords

Nanotechnology, Electrochemical Sensors, Biosensors, Borophene, Graphene, Two-Dimensional Materials, Conducting Polymers, Molecularly Imprinted Polymers, Food Quality Monitoring, Health Diagnostics, Materials Engineering, Nanostructured Materials.

Introduction

Shahzad Ahmed completed his doctoral research at the Indian Institute of Technology Jodhpur under the Prime Minister’s Research Fellowship (PMRF). His academic journey includes research appointments at National Yang Ming Chiao Tung University, Taiwan, and The State University of New York at Buffalo, USA. His interdisciplinary expertise combines materials engineering, electrochemistry, nanofabrication, thin-film technologies, biosensor development, and advanced characterization techniques.[3]

Research Profile

His research interests include electrochemical sensing, nanomaterial synthesis, biosensor fabrication, photodetectors, conducting polymers, carbon quantum dots, graphene, borophene, MoS₂, MXenes, porous silicon, and advanced semiconductor materials. He possesses hands-on expertise in photolithography, CVD, PVD, SEM, Raman spectroscopy, FTIR, UV-Visible spectroscopy, electrochemical impedance spectroscopy, cyclic voltammetry, and thin-film fabrication.

Research Contributions

  • Development of borophene-based electrochemical sensing platforms.
  • Electronic tongue technologies for food quality monitoring.
  • Hybrid conducting polymer sensor architectures.
  • Nanocomposite materials for UV photodetection.
  • Molecularly imprinted polymer biosensors.
  • Nanostructured materials for supercapacitors and energy storage.
  • Advanced materials for photocatalysis and hydrogen evolution research.
  • Patent contribution involving borophene tube technologies.

Publications

Shahzad Ahmed has authored more than 40 indexed research publications across internationally recognized journals including Biosensors and Bioelectronics, Advanced Science, Small, Langmuir, Coordination Chemistry Reviews, Analyst, ACS Applied Polymer Materials, ACS Applied Nano Materials, Journal of Materials Science, Analysis & Sensing, and numerous conference proceedings and book chapters. His publications span electrochemical sensing, nanomaterials, energy storage, photocatalysis, and optoelectronic devices.[4]

Research Impact

His research profile includes over one thousand citations, an h-index of 20, international collaborations, invited presentations, reviewer service for more than twenty scientific journals, one U.S. provisional patent, PMRF fellowship recognition, and sustained contributions to materials science and sensor engineering. These indicators demonstrate consistent scholarly productivity and broad engagement with the international research community.[5]

Award Suitability

Shahzad Ahmed demonstrates a research profile aligned with the objectives of the Research Excellence Award through sustained publication output, interdisciplinary collaboration, innovative sensor development, patent activity, mentoring experience, international research exposure, and measurable scientific impact. His contributions toward nanostructured materials, electrochemical sensing, biosensor engineering, and advanced materials research represent significant developments within contemporary materials engineering.

Conclusion

Shahzad Ahmed reflects extensive engagement in advanced materials engineering, electrochemical sensor development, nanotechnology, and interdisciplinary scientific research. His achievements across publications, research collaborations, technology development, teaching, and scholarly service collectively illustrate a strong and evolving contribution to the international materials science community.

References

  1. Elsevier. (n.d.). Scopus Auth or Details: Shahzad Ahmed, Author ID 57349086600.
    https://www.scopus.com/authid/detail.uri?authorId=57349086600
  2. Shahzad Ahmed., et al. (2018). Direct CVD growth of graphene on technologically important dielectric and semiconducting substrates.
    https://advanced.onlinelibrary.wiley.com/doi/abs/10.1002/advs.201800050
  3. Shahzad Ahmed., et al. (2023). Nanostructured material‐based optical and electrochemical detection of amoxicillin antibiotic.
    https://analyticalsciencejournals.onlinelibrary.wiley.com/doi/abs/10.1002/bio.4408
  4. Shahzad Ahmed., et al. (2022). Self-healable and anti-freezing ion conducting hydrogel-based artificial bioelectronic tongue sensing toward astringent and bitter tastes.
    https://doi.org/10.1016/j.bios.2021.113811
  5. Shahzad Ahmed., et al. (2022). Iron oxide nanoparticle-based ferro-nanofluids for advanced technological applications.
    https://www.mdpi.com/1420-3049/27/22/7931