Xidian University | China
Dr. Xiangxiang Gao is a dedicated researcher in the field of materials science and engineering, with special expertise in energy materials, photocatalysis, and novel functional nanomaterials. He has built a strong scholarly record, having authored over 45 documents (journal articles, conference papers, reviews, and book chapters) indexed in Scopus. His work has earned him approximately 900 citations, reflecting the impact his publications have had in the scientific community. His h-index is 14, indicating that at least 14 of his works have each been cited 14 or more times, which underscores both the quality and sustained relevance of his research output. His research focuses on designing and synthesizing materials with tailored properties for photocatalytic degradation of pollutants, hydrogen production, and solar energy conversion. Dr. Gao often collaborates across disciplines combining experimental methods (material fabrication, structural characterization using XRD, TEM, SEM) with performance measurement in photocatalytic or electrochemical settings to develop materials with enhanced efficiency, stability, and real-world applicability. Besides his core materials work, Dr. Gao contributes to atmospheric and environmental chemistry through studies of pollutant removal, often investigating the mechanisms behind catalysis, surface interactions, and charge transfer processes. He is also engaged in mentoring graduate students and early-career researchers, guiding them through both the technical and scientific reasoning required in their experiments and publications. His papers have been published in respected, peer-reviewed international journals, and multiple articles serve as reference points in their fields, often cited for their innovative synthesis methods, durable photocatalytic activity, or insights into how nano-morphology influences performance. Dr. Gao’s citations continue to grow as newer works build on his findings signaling that his research is not only advancing knowledge now, but setting foundations future studies build upon. His consistent output and cross-disciplinary collaborations portray a researcher with strong momentum and a trajectory toward becoming a leading figure in sustainable energy materials. The combination of his document count, citation profile, and h-index provides concrete evidence of productivity, influence, and scholarly merit. His work contributes meaningfully to solving pressing global challenges in clean energy and environmental protection, making him a strong candidate for recognition and award consideration.
Featured Publications
Versatile optoelectronic memristor based on wide-bandgap Ga2O3 for artificial synapses and neuromorphic computing
Artificial Synapses and Logic Gates Based on Tellurium Oxide Memristors for Artificial Vision Applications
Emerging materials and applications from thermally evaporated electronic films
Self-Assembled Multilayer Single-Walled Carbon Nanotube Thin Film Transistors and Doping Regulation
Coexistence of Unipolar and Bipolar Resistive Switching in Optical Synaptic Memristors and Neuromorphic Computing