Ms. Qian He | Biomaterials | Best Researcher Award

Ms. Qian He | Biomaterials – Associate Professor at Shanxi Bethune Hospital, China

Qian He is a dedicated researcher specializing in the field of nanomaterials with a focus on carbon dots and their biomedical applications. With a strong foundation in materials chemistry, Qian has contributed significantly to the advancement of nano-bio interfaces, particularly in medical diagnostics and therapy. Her innovative approach bridges chemistry, biology, and clinical applications, aiming to create functional nanomaterials for precise disease imaging and targeted treatment, especially in autoimmune conditions like rheumatoid arthritis. Her work has gained international recognition through publications in reputable journals, marking her as a rising leader in the interdisciplinary realm of nanomedicine.

Academic Profile:

ORCID

Education:

While specific educational details are not disclosed, Qian He’s research trajectory and publication record suggest a rigorous academic background in materials science, chemistry, or a related discipline, with advanced training that enables cutting-edge work in carbon dot synthesis and biomedical applications. This solid scientific foundation underpins her ability to conduct complex multi-disciplinary research and innovate at the interface of nanotechnology and medicine.

Experience:

Qian He has amassed considerable research experience over recent years, primarily in the design, synthesis, and application of carbon dots as multifunctional nanomaterials. She has collaborated extensively with peers from chemistry and biomedical fields, showcasing her ability to work in diverse teams to address pressing biomedical challenges. Her experience spans developing efficient red-emitting carbon dots for bioimaging, engineering bone-targeted nanomaterials for antioxidant therapy, and innovating nanozymes that modulate redox processes, reflecting a broad and deep expertise in both fundamental and applied research. Her involvement in numerous high-impact projects attests to her role as a proactive and skilled researcher in her domain.

Research Interest:

Qian He’s research primarily revolves around carbon dots—nanoscale carbon-based particles—and their applications in biomedicine. She explores their multifunctionality, including fluorescence for precise bioimaging, enzymatic activity mimicking for therapeutic effects, and surface chemistry modification for targeted delivery. Key interests include developing nanozymes to regulate oxidative stress, engineering bone-targeted nanomaterials for rheumatoid arthritis treatment, and applying click chemistry to enhance carbon dot functionalities. Her work integrates materials chemistry, nanotechnology, and biomedical engineering, aiming to translate laboratory innovations into clinical solutions for diseases requiring precise diagnostics and effective antioxidant therapies.

Award:

Although specific awards have not been explicitly listed in public records, Qian He’s robust publication record, multidisciplinary collaborations, and focus on cutting-edge biomedical nanomaterials position her as a strong candidate for research awards. Her work’s impact on rheumatoid arthritis treatment and bioimaging applications highlights her potential for recognition by academic and professional organizations committed to nanomedicine and materials science excellence.

Publications:

• Efficient red-emitting carbon dots and albumin composites for precise synovial bioimaging in rheumatoid arthritis (🔬 Journal of Materials Chemistry B, 2025)

• Enhanced multi-enzyme activity and bone-targeted phosphorus-doped carbon dots for precise antioxidant therapy of rheumatoid arthritis (🦴 Carbon, 2025)

• Carbon dots as a new class of multifunctional nanomaterial in mesenchymal stem cells: opportunities and challenges (🌱 Journal of Materials Chemistry B, 2023)

• Design of carbon dots as nanozymes to mediate redox biological processes (⚗️ Journal of Materials Chemistry B, 2023)

• Quantitative and biosafe modification of bifunctional groups onto carbon dots by click chemistry (🧪 Journal of Materials Chemistry B, 2023)

• Ratiometric dual-emission of Rhodamine-B grafted carbon dots for full-range solvent components detection (🌈 Analytica Chimica Acta, 2021)

Conclusion:

Qian He represents an exemplary researcher whose dedication to advancing carbon dot technology in biomedical contexts has yielded promising results for disease diagnosis and therapy, particularly rheumatoid arthritis. Her interdisciplinary approach, scientific rigor, and innovative methodologies have established her as a prominent figure in her field. With a steady record of high-quality publications and impactful research themes, she embodies the qualities of an outstanding researcher deserving recognition. Supporting her nomination will highlight a scientist who not only pushes the boundaries of materials science but also profoundly contributes to translational medicine with the potential to improve patient outcomes worldwide.