College of Environmental and Resources, Xiangtan University | China
Ms. Lingkui Zhao is an accomplished Associate Professor at the School of Environment and Resources, renowned for her expertise in air pollution control and the development of advanced environmental catalytic materials. With an extensive background in environmental science and engineering, she has made significant contributions to addressing atmospheric environmental challenges driven by national economic development needs. Her work integrates innovative approaches to mitigate typical air pollutants including sulfur oxides, volatile organic compounds (VOCs), nitrogen-containing pollutants, and mercury, utilizing diverse techniques such as absorption, adsorption, catalysis, numerical modeling, and mathematical optimization.
Professional Profile
Education
Ms. Zhao earned her PhD in Environmental Science and Engineering from Hunan University, where she developed a strong foundation in pollution control technologies and environmental catalysis. Her academic training has provided her with the necessary expertise to explore complex environmental processes and design sustainable solutions for pollution mitigation.
Experience
Over the years, Ms. Zhao has successfully led numerous high-impact research projects funded by esteemed institutions such as the National Natural Science Foundation of China, the China Postdoctoral Science Foundation, the Hunan Provincial Key R&D Program, and the Hunan Provincial Natural Science Foundation. Her leadership in these projects reflects her deep commitment to scientific innovation and applied research. She has published over 30 peer-reviewed articles in internationally recognized journals including Applied Catalysis B: Environmental, Chemical Engineering Journal, and Journal of Hazardous Materials. In addition, she holds two authorized invention patents, further underlining her contributions to the field of environmental catalysis. As an educator, she imparts her knowledge to undergraduate students through courses such as “Air Pollution Control Engineering” and “Engineering Design,” nurturing the next generation of environmental engineers and researchers.
Research Interests
Her primary research focuses on air pollution control, with particular emphasis on the coordinated removal of multiple atmospheric pollutants at low to medium temperatures. She specializes in the design, preparation, and application of catalytic materials for the simultaneous control of NO, VOCs, mercury, and dioxins. Her research delves into the mechanisms of synergistic catalytic reactions, structural modifications of catalysts, sulfur resistance mechanisms, and regeneration performance of activated materials. She is also engaged in developing and optimizing core–shell and ordered mesoporous catalysts to achieve efficient pollutant removal under varying industrial conditions.
Awards and Recognition
Ms. Zhao has been recognized for her outstanding research and academic contributions through the acquisition of prestigious grants and funded projects at national and provincial levels. Her research outputs have been instrumental in supporting technical assistance initiatives for air pollution prevention and control across several regions in China, including Changde, Loudi, Hengyang, and Yongzhou. Her expertise has made her a valued contributor to both academic and applied environmental protection strategies.
Publications
(2025). “Multisite CuFeAlOx catalyst enabling high-efficiency synergetic catalytic removal of NO and toluene by enhancing pseudo toluene-SCR pathway.” Chemical Engineering Journal.
(2025). “Oxygen-containing functional groups coupled Fe sites of FeOx/OAC overcome the trade-off between desulfurization activity and regeneration performance.” Journal of Environmental Management.
(2025). “In situ introduced oxygen-containing functional groups boost the reactivity and regenerability of FeOx/AC for cyclic denitrification-desulfurization-regeneration.” Separation and Purification Technology.
(2025). “Enhancing the activity and sulfur resistance of CuFeAlOx catalyst via the structure effect for the simultaneous removal of Hg⁰ and NO at wide temperature.” Separation and Purification Technology.
(2025). “Efficient formaldehyde removal by maximizing adsorption/catalytic sites over graphene-Ce modified TiO₂.” Separation and Purification Technology.
Conclusion
Ms. Lingkui Zhao’s professional journey reflects a profound dedication to advancing scientific understanding and practical solutions in the field of air pollution control and environmental catalysis. Through her extensive research, patents, and educational endeavors, she has established herself as a leading expert committed to tackling critical environmental challenges. Her contributions continue to shape cleaner industrial practices and inspire innovation in sustainable environmental technologies, ultimately promoting healthier air quality and ecological well-being.