Peijia Bai | Nanotechnology and Materials Science | Best Researcher Award

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Dr. Peijia Bai | Nanotechnology and Materials Science | Best Researcher Award

Assistant Research Fellow | Beihang University | China

Dr. Peijia Bai is an emerging materials scientist whose research significantly advances high-efficiency thermal management, electrothermal conversion, and radiative cooling technologies. His work centers on electrocaloric materials and devices, ultrafast-response phase-change materials (PCMs), thermal system design, and protective color radiative-cooling coatings. With a strong focus on bridging fundamental materials science with practical applications, he has contributed to establishing next-generation energy-efficient cooling strategies and improving heat-dissipation performance for electronic and aerospace systems. Dr. Peijia Bai has published more than 30 peer-reviewed journal articles across leading platforms including Advanced Materials, Nature Communications, Science, and Joule, with over 812 Scopus citations, 24 documents and an h-index of 14. His publications include more than 10 papers as first or corresponding author, highlighting his prominent role in driving independent innovations. He has also contributed to one research monograph and authored multiple high-impact conference papers that extend his work to global scientific communities. A major contribution of his research is the development of a standardized electrothermal-effect measurement protocol, which has been widely adopted by both academia and industry. This standardized method has been cited extensively in top-tier journals and is now considered an important benchmark for evaluating electrothermal device performance. His work has also yielded seven patented technologies covering thermal-functional materials and device architectures, demonstrating strong translational potential. Dr. Peijia Bai has led and contributed to multiple funded research projects related to thermal management materials, advanced cooling devices, and energy-conversion technologies. His innovations have earned him the prestigious SAMPE International Award and recognition within professional societies such as the Zhejiang Society for Materials Progress. He also serves on the young editorial boards of cScience and Renewable and Sustainable Energy, reflecting his growing influence in the field. Dr. Peijia Bai’s research continues to advance innovative thermal strategies, contributing impactful solutions for sustainable energy technologies, aerospace materials, and advanced electronic systems.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

1. Bai, P., Yang, Q., & Yu, S. (2025). Electrocaloric refrigeration utilizing lead-free multilayer ceramics with high heat transfer efficiency. Applied Thermal Engineering. https://doi.org/10.1016/j.applthermaleng.2025.128927

2. Bai, P., Yang, Q., & Yu, S. (2025). Integration of efficient photothermal and flexible solid-solid PCM for personal thermoregulation in cold environments. iScience. https://doi.org/10.1016/j.isci.2025.114032

3. Wang, G., Bai, P., Yuan, S., Bo, Y., Zhang, D., & Ma, R. (2025). Flexible electrocaloric polymer stack driven by one AA battery for highly efficient personalized thermoregulation. Nano Letters, 25. https://doi.org/10.1021/acs.nanolett.5c03730

4. Wang, G., Bai, P., Yuan, S., Bo, Y., Zhou, Z., Zhang, D., & Ma, R. (2025). Highly efficient cooling via synergistic electro‐thermal phase changes. Advanced Materials. https://doi.org/10.1002/adma.202506006

5. Ma, W., Liu, X., Yang, T., Wang, J., Qiu, Z., Cai, Z., Bai, P., Ji, X., & Huang, Y. (2025). Strong magnetic–dielectric synergistic gradient metamaterials for boosting superior multispectral ultra‐broadband absorption with low‐frequency compatibility. Advanced Functional Materials. https://doi.org/10.1002/adfm.202314046

Sofia Teixeira | Nanotechnology and Materials Science | Editorial Board Member

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Dr. Sofia Teixeira | Nanotechnology and Materials Science | Editorial Board Member

Senior Researcher | Tyndall National Institute | Ireland

Dr. Sofia Teixeira is a nanotechnology-focused researcher whose work bridges advanced materials science, biomedical engineering, and micro/nanofabrication. Her research background centers on the design and development of nanoscale sensing platforms capable of detecting disease-associated biomolecules with high sensitivity and selectivity. Trained in nanotechnology and electrochemical sensing, she has contributed to innovations in biomedical devices, electronic materials, and diagnostic interfaces, with a strong emphasis on translational applications that support early disease detection. Her research outputs include peer-reviewed journal publications, conference communications, and technology-driven studies exploring functional nanomaterials, biomarker recognition systems, and bio-electronic interfaces. With 89 citations, 4 research documents, and an h-index of 3, her contributions reflect an emerging yet impactful presence in the fields of nanosensors, biomaterials, and applied biotechnology. She has also advanced fabrication protocols using micro- and nanofabrication techniques, contributing to improved device performance, reproducibility, and real-world applicability. Dr. Sofia Teixeira has been involved in multidisciplinary R&D efforts linked to biomedical diagnostics, electrochemical sensor optimization, and nanostructured material design. Her work frequently integrates chemical engineering, electrochemistry, and medical biotechnology, positioning her research within critical domains such as point-of-care diagnostics, biosensing technologies, and health-related nanotechnology. She has participated in collaborative research initiatives and has contributed to the scientific community through reviewer service and research dissemination activities. Her innovations in nanoscale detection platforms and biomedical materials continue to support the advancement of next-generation diagnostic technologies and applied sensor research.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Loop 

Featured Publications

  • Azzopardi, E., Lloyd, C., Teixeira, S. R., Conlan, R. S., & Whitaker, I. S. (2016). Clinical applications of amylase: Novel perspectives. Surgery, 160(1), 26–37.

  • Teixeira, S., Burwell, G., Castaing, A., Gonzalez, D., Conlan, R. S., & Guy, O. J. (2014). Epitaxial graphene immunosensor for human chorionic gonadotropin. Sensors and Actuators B: Chemical, 190, 723–729.

  • Teixeira, S., & Sampaio, P. (2013). Food safety management system implementation and certification: Survey results. Total Quality Management & Business Excellence, 24(3–4), 275–293.

  • Teixeira, S., Conlan, R. S., Guy, O. J., & Sales, M. G. F. (2014). Label-free human chorionic gonadotropin detection at picogram levels using oriented antibodies bound to graphene screen-printed electrodes. Journal of Materials Chemistry B, 2(13), 1852–1865.

  • Berbel-Filho, W. M., Berry, N., Rodríguez-Barreto, D., Teixeira, S., … (2020). Environmental enrichment induces intergenerational behavioural and epigenetic effects on fish. Molecular Ecology.

 

Ntakadzeni Madima | Nanotechnology | Best Researcher Award

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Dr. Ntakadzeni Madima | Nanotechnology | Best Researcher Award

Dr. Ntakadzeni Madima is a dedicated research scientist with strong expertise in nanotechnology, photocatalysis, energy storage, and environmental remediation. He has extensive experience in the synthesis and application of advanced functional materials for clean energy and water treatment solutions. His work has led to the development of innovative electrode materials for high-performance batteries and efficient photocatalysts for water purification. Dr. Madima has contributed to both academic and industrial sectors and is recognized for his strong analytical capabilities, collaborative research, and mentorship of early-career scientists. He has published several peer-reviewed articles in respected international journals.

Publication Profile

Scopus

Orcid

Google Scholar

Educational Details

  • Ph.D. in Science, Engineering and Technology, University of South Africa, Roodepoort (2023)
    Thesis: Titanium Dioxide-based Heterojunction Photocatalysts for the Remediation of Organic and Inorganic Pollutants in Water

  • M.Sc. in Nanoscience, University of Johannesburg, Johannesburg (2017)
    Dissertation: Molybdenum Sulfide Nanostructures: Synthesis and Their Catalytic Applications

  • B.Sc. Honours in Physics (with Distinction), University of Limpopo, Polokwane (2015)

  • B.Sc. in Chemistry and Physics, University of Limpopo, Polokwane (2014)

Professional Experience

Postdoctoral Fellow – MINTEK
Randburg, South Africa | Nov 2023 – Present

  • Leading research in the development of advanced electrode materials for high-performance energy storage applications.

  • Enhancing battery performance with a focus on energy density and cycling stability.

  • Collaborating with interdisciplinary teams on commercialization of battery materials.

  • Mentoring junior researchers and providing strategic input on experimental design and data analysis.

Laboratory Analyst – SUNPHARMA
Johannesburg, South Africa | Jul 2017 – May 2018

  • Conducted analytical testing on pharmaceutical products, including dissolution, disintegration, and assay evaluations.

  • Utilized HPLC, UV-Vis, FTIR, GC, and Atomic Absorption Spectroscopy (AAS) for quality assurance.

  • Maintained detailed documentation and reported findings to management.

  • Ensured lab safety and compliance with standard protocols.

Junior Laboratory Assistant – University of Johannesburg
Johannesburg, South Africa | Jan 2016 – Dec 2016

  • Delivered practical sessions and tutorials in various chemistry disciplines.

  • Prepared lab materials and ensured proper functioning and maintenance of equipment.

  • Enforced strict adherence to lab safety procedures.

Junior Laboratory Assistant – University of Limpopo
Polokwane, South Africa | Jan 2013 – Dec 2014

  • Facilitated physics tutorials and practical sessions for undergraduates.

  • Set up and conducted laboratory experiments with a focus on student engagement and safety.

  • Provided academic support and feedback to improve student learning.

Research Interest

  • Nanotechnology for environmental and energy applications

  • Photocatalysis using titanium dioxide-based heterojunctions

  • Electrode materials for lithium-ion and next-generation batteries

  • Nanostructured catalysts for pollutant degradation

  • Analytical instrumentation and materials characterization

Author Metrics

  • Citations: 473

  • h-index: 8

  • i10-index: 8

Top Noted Publication

  1. Carbon-based nanomaterials for remediation of organic and inorganic pollutants from wastewater: A review

    • Authors: N. Madima, S.B. Mishra, I. Inamuddin, A.K. Mishra

    • Journal: Environmental Chemistry Letters

    • Volume: 18

    • Pages: 1169-1191

    • Year: 2020

    • Citations: 230

  1. Fabrication of magnetic recoverable Fe₃O₄/TiO₂ heterostructure for photocatalytic degradation of rhodamine B dye

    • Authors: N. Madima, K.K. Kefeni, S.B. Mishra, A.K. Mishra, A.T. Kuvarega

    • Journal: Inorganic Chemistry Communications

    • Volume: 145

    • Article Number: 109966

    • Year: 2022

    • Citations: 69

  1. TiO₂-modified g-C₃N₄ nanocomposite for photocatalytic degradation of organic dyes in aqueous solution

    • Authors: N. Madima, K.K. Kefeni, S.B. Mishra, A.K. Mishra

    • Journal: Heliyon

    • Volume: 8(9)

    • Article Number: e09746

    • Year: 2022

    • Citations: 65

  1. Visible-light-driven Z-scheme ternary Fe₃O₄/TiO₂/g-C₃N₄ nanocomposite as reusable photocatalyst for efficient removal of dyes and chromium in water

    • Authors: N. Madima, K.K. Kefeni, A.T. Kuvarega, S.B. Mishra, A.K. Mishra

    • Journal: Materials Chemistry and Physics

    • Volume: 296

    • Article Number: 127233

    • Year: 2023

    • Citations: 31

  1. PEGylated MoS₂ nanosheets: A dual functional photocatalyst for photodegradation of organic dyes and photoreduction of chromium from aqueous solution

    • Authors: M. Ntakadzeni, W.W. Anku, N. Kumar, P.P. Govender, L. Reddy

    • Journal: Bulletin of Chemical Reaction Engineering & Catalysis

    • Volume: 14(1)

    • Pages: 142-152

    • Year: 2019

    • Citations: 28

Conclusion

Dr. Ntakadzeni Madima is a highly deserving candidate for the Best Researcher Award due to his innovative contributions to nanotechnology, particularly in energy storage and environmental remediation. His work in the development of advanced electrode materials and photocatalysts is impactful and holds significant potential for addressing global challenges. While there is room to grow in terms of publication impact and citation metrics, Dr. Madima’s research capabilities, leadership, and mentorship qualities make him an excellent candidate for the award. His future prospects for advancing scientific knowledge and making meaningful contributions to both academia and industry are promising.