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Xiaodong Su
Researcher at Soochow University (Suzhou)
Publications - 43
Citations - 948
Xiaodong Su is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Silicon & Photocathode. The author has an hindex of 14, co-authored 43 publications receiving 740 citations. Previous affiliations of Xiaodong Su include Korean Council for University Education.
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Next-generation multi-crystalline silicon solar cells: Diamond-wire sawing, nano-texture and high efficiency
TL;DR: In this paper, a nano-texture technique has been developed to achieve 1831% efficient diamond-wire sawn multi-crystalline silicon (DWS mc-Si) solar cells on a pilot production line.
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Enhancement of Photocurrent in Ferroelectric Films Via the Incorporation of Narrow Bandgap Nanoparticles
Xiaoluan Yang,Xiaodong Su,Mingrong Shen,Fengang Zheng,Yu Xin,Lu Zhang,Muchuan Hua,Yajie Chen,Vincent G. Harris +8 more
TL;DR: A novel nanostructured ferroelectric photovoltaic material, consisting of the ferro electric lead zirconate titanate (PZT) film and Ag(2) O semiconductor nanoparticles of comparatively narrow bandgap, has demonstrated a remarkable enhancement in the photvoltaic effects and the highest light-electricity conversion efficiency among those PZT-based photodiodes previously reported.
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18.45%‐Efficient Multi‐Crystalline Silicon Solar Cells with Novel Nanoscale Pseudo‐Pyramid Texture
Ye Xiaoya,Shuai Zou,Kexun Chen,Jianjiang Li,Jie Huang,Cao Fang,Xusheng Wang,Lingjun Zhang,Xue-Feng Wang,Mingrong Shen,Xiaodong Su +10 more
TL;DR: In this paper, a nanoscale pseudo-pyramid textured multi-crystalline silicon (Pmc-Si) solar cells are fabricated by using a metal-catalyzed chemical etching plus a post alkaline etching on an industrial production line.
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Novel texturing process for diamond-wire-sawn single-crystalline silicon solar cell
TL;DR: Using a simple pre-polishing step with TMAH plus routine texture process, the saw marks as well as amorphous silicon layer are removed effectively, thus benefiting the formation of a random pyramid structure on DWS sc-Si wafers, and the texturing mechanism beyond was discussed as mentioned in this paper.
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Stable and efficient multi-crystalline n+p silicon photocathode for H2 production with pyramid-like surface nanostructure and thin Al2O3 protective layer
Ronglei Fan,Wen Dong,Liang Fang,Fengang Zheng,Xiaodong Su,Shuai Zou,Jie Huang,Xusheng Wang,Mingrong Shen +8 more
TL;DR: In this article, a multi-crystalline (mc) n+p silicon photocathode with a thin Al2O3 layer was constructed for photoelectrochemical H2 production.