G
Gengzhi Sun
Researcher at Nanjing Tech University
Publications - 140
Citations - 6865
Gengzhi Sun is an academic researcher from Nanjing Tech University. The author has contributed to research in topics: Carbon nanotube & Supercapacitor. The author has an hindex of 34, co-authored 110 publications receiving 4644 citations. Previous affiliations of Gengzhi Sun include Center for Advanced Materials & Northwestern Polytechnical University.
Papers
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Heteroatom-doped graphene materials: syntheses, properties and applications
TL;DR: The distinct properties resulting from various dopants, different doping levels and configurations, and synergistic effects from co-dopants are emphasized, hoping to assist a better understanding of doped graphene materials.
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Quantum dots derived from two-dimensional materials and their applications for catalysis and energy
TL;DR: The synthesis methods and the properties of quantum dots derived from the atomically-thin two-dimensional sheets are discussed and their applications in electrocatalysis, photocatalysis, supercapacitors, batteries, and photovoltaics are emphasized.
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Hybrid fibers made of molybdenum disulfide, reduced graphene oxide, and multi-walled carbon nanotubes for solid-state, flexible, asymmetric supercapacitors.
TL;DR: This fiber-based asymmetric supercapacitor can operate in a wide potential window of 1.4 V with high Coulombic efficiency, good rate and cycling stability, and improved energy density.
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Self-powered, visible-light photodetector based on thermally reduced graphene oxide–ZnO (rGO–ZnO) hybrid nanostructure
TL;DR: In this article, a new type of self-powered, visible-light photodetector fabricated from thermally reduced rGO-ZnO hybrid nanostructure was reported.
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Ti3C2TX MXene for Sensing Applications: Recent Progress, Design Principles, and Future Perspectives.
Yangyang Pei,Xiaoli Zhang,Zengyu Hui,Jinyuan Zhou,Xiao Huang,Gengzhi Sun,Gengzhi Sun,Wei Huang,Wei Huang +8 more
TL;DR: In this paper, the authors discuss the recent research progress in MXene-based sensors, discuss the merits of MXenes and their derivatives as sensing materials for collecting various signals, and try to elucidate the design principles and working mechanisms of corresponding MXenebased sensors including strain/stress sensors, gas sensors, electrochemical sensors, optical sensors, and humidity sensors.