G
Guosheng Cheng
Researcher at Chinese Academy of Sciences
Publications - 96
Citations - 6618
Guosheng Cheng is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Nanowire & Graphene. The author has an hindex of 35, co-authored 88 publications receiving 6053 citations. Previous affiliations of Guosheng Cheng include Yale University & Academia Sinica.
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Detection of CO and O2 Using Tin Oxide Nanowire Sensors
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Three-dimensional graphene foam as a biocompatible and conductive scaffold for neural stem cells
Ning Li,Qi Zhang,Song Gao,Qin Song,Rong Huang,Long Wang,Liwei Liu,Jianwu Dai,Mingliang Tang,Guosheng Cheng +9 more
TL;DR: Graphene foam, a 3D porous structure, is used as a novel scaffold for NSCs in vitro and phenotypic analysis indicated that 3D-GFs can enhance the NSC differentiation towards astrocytes and especially neurons.
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Composite mesostructures by nano-confinement.
Yiying Wu,Guosheng Cheng,Kirill Katsov,Scott W. Sides,Jianfang Wang,Jing Tang,Glenn H. Fredrickson,Martin Moskovits,Galen D. Stucky +8 more
TL;DR: A systematic study of the confined assembly of silica–surfactant composite mesostructures within cylindrical nanochannels of varying diameters is presented.
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The promotion of neurite sprouting and outgrowth of mouse hippocampal cells in culture by graphene substrates.
Ning Li,Xuemin Zhang,Xuemin Zhang,Qin Song,Ruigong Su,Qi Zhang,Tao Kong,Liwei Liu,Gang Jin,Mingliang Tang,Guosheng Cheng +10 more
TL;DR: The results reveal that graphene substrates exhibited excellent biocompatibility, as cell viability and morphology were not affected and neurites, one of the key structures for neural functions, are affected by graphene during the development until maturation in a mouse hippocampal culture model.
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Reduced graphene oxide electrically contacted graphene sensor for highly sensitive nitric oxide detection.
Weiwei Li,Xiumei Geng,Guo Yufen,Jizan Rong,Youpin Gong,Liqiong Wu,Xuemin Zhang,Peng Li,Jianbao Xu,Guosheng Cheng,Mengtao Sun,Liwei Liu +11 more
TL;DR: The highly sensitive, recoverable, and reliable detection of NO gas ranging from 2 to 420 ppb with response time of several hundred seconds has been achieved at room temperature and suggests a promising application of graphene devices toward the human exhaled NO and environmental pollutant detections.