Assoc Prof Dr. Huiping Bai |Analytical chemistry | Best Researcher Award |

🌱 Early Academic Pursuits

Dr. Huiping Bai embarked on her academic journey with a strong foundation in materials science and energy. She pursued rigorous training and education that laid the groundwork for her specialization in cutting-edge electrochemical sensing technologies. With a passion for innovation and a desire to contribute to advancements in scientific research, Dr. Bai honed her skills in nanomaterials and analytical chemistry, aiming to address complex challenges in the detection of heavy metals, drugs, and other critical substances.

💼 Professional Endeavors

Currently an Associate Professor and Master Tutor at the School of Materials and Energy, Yunnan University, Dr. Bai has built a distinguished career in academia and research. Her role as a mentor highlights her dedication to guiding the next generation of researchers in achieving excellence. She actively contributes to the scientific community through her expertise in electrochemical sensors, molecular imprinting techniques, and nanotechnology. As a prominent figure at Yunnan University, she fosters interdisciplinary collaboration and leads pioneering studies that advance the state-of-the-art in her field.

🧪 Contributions and Research Focus

Dr. Bai’s research is characterized by a profound focus on developing highly sensitive and selective electrochemical sensors. Her work addresses critical global concerns, such as the detection and monitoring of heavy metals in the environment and the identification of pharmaceutical residues. A hallmark of her research is the integration of molecular imprinting techniques with advanced nanomaterials, enabling innovative solutions for complex analytical problems. Her studies have implications in environmental protection, public health, and industrial processes, demonstrating a significant societal impact.

🏅 Accolades and Recognition

Dr. Bai’s achievements have garnered recognition both regionally and nationally. Notably, she was selected as a “Xingdian” Talent in Yunnan Province in 2022, underscoring her status as a leading researcher and innovator. Her groundbreaking work earned her the prestigious Second Prize of Natural Science in Yunnan Province, a testament to the scientific and practical value of her contributions. These accolades reflect her commitment to excellence and her influence in advancing the frontiers of materials science and sensor technologies.

🌟 Impact and Influence

The impact of Dr. Bai’s research extends far beyond academic boundaries. Her innovations in sensor technology have the potential to revolutionize how contaminants and pharmaceuticals are detected, contributing to safer environmental and healthcare practices. Her leadership in mentoring young scientists and fostering collaborations amplifies her influence, ensuring that her expertise and vision are shared and expanded upon. Dr. Bai’s ability to translate complex scientific concepts into practical applications highlights her role as a transformative force in her discipline.

🌈 Legacy and Future Contributions

Dr. Huiping Bai’s legacy lies in her dedication to addressing real-world problems through innovative research. As a trailblazer in electrochemical sensors and nanotechnology, her work sets a benchmark for excellence in the field. Looking to the future, she envisions expanding her research into new areas, such as the development of sustainable materials and enhanced sensor systems for broader applications. Through her ongoing efforts, she continues to inspire future generations of scientists, ensuring that her contributions leave a lasting impact on science and society.

Enhancing capture of As(V) through a sulfonic-acid-functionalized 2D crystal Ce-5-SIP-MOF and its insights from DFT calculations

Authors: Zhou, Y., Ren, B., Yu, J., Wang, S., Bai, H.

Journal: Separation and Purification Technology

Year: 2025

Highly-sensitive detection of CP-type synthetic cannabinoids from e-cigarettes by a novel Zn/Bi bimetallic organic framework-derived ZnO-Bi₂O₃ heterojunctions sensing platform

Authors: Chen, H., He, Y., Duan, S., Wang, S., Bai, H.

Journal: Microchimica Acta

Year: 2024

Multi-ligand strategy for enhanced removal of heavy metal ions by thiol-functionalized defective Zr-MOFs

Authors: Zhou, Y., Xiong, J., Wang, L., Wang, S., Yang, X.

Journal: Journal of Hazardous Materials

Year: 2024

Lanthanum(III)-2,5-Pyrazinedicarboxylate framework as an antibacterial adsorbent for highly efficient and selective capture of Pb(II) and Cd(II) from wastewater

Authors: Zhou, Y., Li, F., He, Y., Wang, S., Yang, X.

Journal: Separation and Purification Technology

Year: 2024

A novel mercapto-functionalized bimetallic Zn/Ni-MOF adsorbents for efficient removal of Hg(II) in wastewater

Authors: Yu, J., Jiang, X., Zhou, Z., Wang, S., Jiang, F.

Journal: Journal of Environmental Chemical Engineering

Year: 2024