Heze University, China
Author Profiles
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š Academic Background
Dr. Xueliang Wang has a strong academic foundation in Applied Chemistry, Electroanalytical Chemistry, and Bioinorganic Chemistry. He obtained his Ph.D. in Applied Chemistry from Qingdao University of Science and Technology in 2009, where he specialized in electroanalytical and bioinorganic chemistry. Prior to this, he earned his Masterās degree in Analytical Chemistry from the same university in 2004, focusing on electroanalysis. His academic journey began with a Bachelorās degree in Chemistry from Qufu Normal University in 2001.
šļø Professional Experience
Dr. Wang has had an illustrious career in academia and research, making significant contributions in the field of electrochemical sensing and environmental analysis. Since 2004, he has been a Professor at the College of Chemistry and Chemical Engineering, Heze University, China, where he has led various research initiatives. To expand his expertise and collaborate internationally, Dr. Wang worked as a Visiting Scholar at California State University, Los Angeles (CSU, L.A.) from 2015 to 2016. Later, in 2018ā2019, he further broadened his research exposure by serving as a Visiting Scholar at Boston College, USA.
š¬ Research Projects and Grants
Dr. Wang has been actively involved in cutting-edge research projects, securing prestigious grants from national and provincial funding agencies. His research primarily focuses on the development of advanced electrochemical biosensors, environmental pollutant detection, and nanotechnology-based sensing applications. Some of his notable projects include:
š” Electrochemical Biosensors for Plant Extracts
As the Principal Investigator (P.I.), Dr. Wang led a research project funded by the National Science Foundation of China (Project No. 21105023) to develop novel electrochemical DNA biosensors for studying the antioxidant activity of plant extracts.
š Environmental Pollutant Detection Using Nanomaterials
Dr. Wangās project, funded by the Shandong Province Science Foundation (Project No. ZR2017MB062), focused on utilizing two-dimensional materials and ionic liquids to fabricate highly sensitive and selective electrochemical sensors for detecting environmental gas pollutants.
š§¬ DNA Damage Biosensors for Genotoxicity Studies
Recognized as an Excellent Youth Scientist in Shandong Province, Dr. Wang received funding (Project No. BS2013HZ027) to develop novel electrochemical DNA damage biosensors for assessing the genotoxicity of environmental pollutants.
š«ļø In-Situ Electrochemical Sensors for Air Pollutants
With support from the China Postdoctoral Science Foundation (Project No. 2015M572039), Dr. Wang pioneered the development of portable electrochemical sensors for real-time detection of air pollutants in various environments.
š± Biosensors for Genetically Modified Plants
As a Main Research Member, Dr. Wang contributed to multiple National Science Foundation of China projects (Project Nos. 20375020, 20975057, and 20805025) aimed at constructing highly sensitive electrochemical gene sensors for the detection of genetically modified plant products. His work involved nanocomposite materials and loop-mediated isothermal amplification (LAMP) technology to enhance detection sensitivity.
š Impact and Legacy
Dr. Xueliang Wang’s groundbreaking research in electrochemical biosensors and environmental monitoring has significantly contributed to advancements in analytical chemistry. His work bridges the gap between electrochemical technology and biological applications, opening new frontiers in biosensor development, environmental safety, and genetic research. As a dedicated professor and researcher, he continues to inspire the next generation of scientists while shaping the future of analytical and bioinorganic chemistry.
Notable Publicationsš
šPreparation of Fe(OH)ā/NiāSā/NiS heterostructure on an iron nickel foam as long-life trifunctional electrocatalysts for seawater and urea splitting
Authors: H. Li, X. Gao, S. Zheng, J. Bai, X. Wang (Xueliang)
Journal: Journal of Alloys and Compounds
Year: 2025
šResearch Progress on the Field-Effect Transistors Sensors for COā Gas Based on 1-D or 2-D Nanomaterials: A Review
Authors: C. Gao, Z. Wang, C. Wang, T. Wang, X. Wang (Xueliang)
Journal: IEEE Sensors Journal
Year: 2025
šEnhanced photodegradation of ceftazidime by BiOBr(110)/BiOCl(110) composite: Its synthesis, mechanism, and degradation pathways
Authors: Y. Sun, X. Wang (Xueliang), H.L. Lee
Journal: Journal of Environmental Chemical Engineering
Year: 2024
šA Lower Working Potential and Real-Time HāS Sensor Based on Nano-CuFeāOā and Lotus Leaf Derived Carbon Material Composite
Authors: N. Zou, X. Li, W. Xu, J. Zhang, X. Wang (Xueliang)
Journal: Journal of the Electrochemical Society
Year: 2024
šSynthesis of FeNi-based heterostructure on a nickel foam at room temperature for efficient catalyzing hydrogen evolution reaction
Authors: H. Li, Z. Wang, X. Wang (Xueliang), T. Wang
Journal: Materials Letters
Year: 2024