| Plasmonic silicon quantum dots enabled high-sensitivity ultrabroadband photodetection of graphene-based hybrid phototransistors Z Ni, L Ma, S Du, Y Xu, M Yuan, H Fang, Z Wang, M Xu, D Li, J Yang, ... ACS nano 11 (10), 9854-9862, 2017 | 356 | 2017 |
| Doping efficiency, dopant location, and oxidation of Si nanocrystals XD Pi, R Gresback, RW Liptak, SA Campbell, U Kortshagen Applied Physics Letters 92 (12), 2008 | 286* | 2008 |
| A self-powered high-performance graphene/silicon ultraviolet photodetector with ultra-shallow junction: breaking the limit of silicon? X Wan, Y Xu, H Guo, K Shehzad, A Ali, Y Liu, J Yang, D Dai, CT Lin, L Liu, ... npj 2D Materials and Applications 1 (1), 4, 2017 | 255 | 2017 |
| Graphene coupled with silicon quantum dots for high‐performance bulk‐silicon‐based Schottky‐junction photodetectors T Yu, F Wang, Y Xu, L Ma, X Pi, D Yang Advanced Materials 28 (24), 4912-4919, 2016 | 247 | 2016 |
| Optoelectronic synaptic devices for neuromorphic computing Y Wang, L Yin, W Huang, Y Li, S Huang, Y Zhu, D Yang, X Pi Advanced Intelligent Systems 3 (1), 2000099, 2021 | 224 | 2021 |
| Tuning the band gap in silicene by oxidation Y Du, J Zhuang, H Liu, X Xu, S Eilers, K Wu, P Cheng, J Zhao, X Pi, ... ACS nano 8 (10), 10019-10025, 2014 | 208 | 2014 |
| Air-stable full-visible-spectrum emission from silicon nanocrystals synthesized by an all-gas-phase plasma approach XD Pi, RW Liptak, JD Nowak, NP Wells, CB Carter, SA Campbell, ... Nanotechnology 19 (24), 245603, 2008 | 197 | 2008 |
| Broadband optoelectronic synaptic devices based on silicon nanocrystals for neuromorphic computing H Tan, Z Ni, W Peng, S Du, X Liu, S Zhao, W Li, Z Ye, M Xu, Y Xu, X Pi, ... Nano Energy 52, 422-430, 2018 | 186 | 2018 |
| Spin-coating silicon-quantum-dot ink to improve solar cell efficiency X Pi, Q Li, D Li, D Yang Solar Energy Materials and Solar Cells 95 (10), 2941-2945, 2011 | 163 | 2011 |
| Optically stimulated synaptic devices based on the hybrid structure of silicon nanomembrane and perovskite L Yin, W Huang, R Xiao, W Peng, Y Zhu, Y Zhang, X Pi, D Yang Nano Letters 20 (5), 3378-3387, 2020 | 160 | 2020 |
| Comparative study on the localized surface plasmon resonance of boron-and phosphorus-doped silicon nanocrystals S Zhou, X Pi, Z Ni, Y Ding, Y Jiang, C Jin, C Delerue, D Yang, T Nozaki ACS nano 9 (1), 378-386, 2015 | 158 | 2015 |
| Room-temperature atmospheric oxidation of Si nanocrystals after HF etching XD Pi, L Mangolini, SA Campbell, U Kortshagen Physical Review B—Condensed Matter and Materials Physics 75 (8), 085423, 2007 | 146 | 2007 |
| A broadband fluorographene photodetector S Du, W Lu, A Ali, P Zhao, K Shehzad, H Guo, L Ma, X Liu, X Pi, P Wang, ... Advanced Materials 29 (22), 1700463, 2017 | 141 | 2017 |
| Ink engineering of inkjet printing perovskite Z Li, P Li, G Chen, Y Cheng, X Pi, X Yu, D Yang, L Han, Y Zhang, Y Song ACS applied materials & interfaces 12 (35), 39082-39091, 2020 | 134 | 2020 |
| Synaptic silicon-nanocrystal phototransistors for neuromorphic computing L Yin, C Han, Q Zhang, Z Ni, S Zhao, K Wang, D Li, M Xu, H Wu, X Pi, ... Nano Energy 63, 103859, 2019 | 128 | 2019 |
| Zero-power optoelectronic synaptic devices W Huang, P Hang, Y Wang, K Wang, S Han, Z Chen, W Peng, Y Zhu, ... Nano Energy 73, 104790, 2020 | 124 | 2020 |
| Silicon nanocrystals: unfading silicon materials for optoelectronics Z Ni, S Zhou, S Zhao, W Peng, D Yang, X Pi Materials Science and Engineering: R: Reports 138, 85-117, 2019 | 107 | 2019 |
| Dual‐modal optoelectronic synaptic devices with versatile synaptic plasticity Y Wang, Y Zhu, Y Li, Y Zhang, D Yang, X Pi Advanced Functional Materials 32 (1), 2107973, 2022 | 105 | 2022 |
| Quasi-Two-Dimensional SiC and SiC2: Interaction of Silicon and Carbon at Atomic Thin Lattice Plane S Lin, S Zhang, X Li, W Xu, X Pi, X Liu, F Wang, H Wu, H Chen The Journal of Physical Chemistry C 119 (34), 19772-19779, 2015 | 103 | 2015 |
| Nonthermal plasma synthesized freestanding silicon–germanium alloy nanocrystals XD Pi, U Kortshagen Nanotechnology 20 (29), 295602, 2009 | 100 | 2009 |
