T
Tongxiang Fan
Researcher at Shanghai Jiao Tong University
Publications - 162
Citations - 6013
Tongxiang Fan is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Photocatalysis & Composite number. The author has an hindex of 40, co-authored 150 publications receiving 4957 citations.
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Electromagnetic wave absorption properties of porous carbon/Co nanocomposites
TL;DR: In this paper, the effect of porous structure on microwave absorption property of the carbon/Co nanocomposite was also discussed and the maximum reflection loss of the porous C(Co) nanocompositionite can reach 40dB at 4.2GHz with 5mm in thickness and the primary microwave absorptive mechanism is ascribed to the dielectric loss.
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Artificial inorganic leafs for efficient photochemical hydrogen production inspired by natural photosynthesis.
Han Zhou,Xufan Li,Tongxiang Fan,Frank E. Osterloh,Jian Ding,Erwin M. Sabio,Di Zhang,Qixin Guo +7 more
TL;DR: A general strategy to assemble man-made catalysts (Pt/N-doped TiO2) into leaf-shaped hierarchical structures, named artificial inorganic leaf (AIL), for efficient harvesting of light energy and photochemical hydrogen production and provides a working prototype to exploit solar energy for sustainable energy resources.
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Novel Photoanode Structure Templated from Butterfly Wing Scales
TL;DR: In this article, a photoanode structure inspired by butterfly wing scales with potential application on dye-sensitized solar cell was studied, and the results show that the calcined photoanodes with butterfly wings' structures, which comprised arranged ridges and ribs consisting of nanoparticles, were fully crystallined.
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Enhanced Light‐Harvesting and Photocatalytic Properties in Morph‐TiO2 from Green‐Leaf Biotemplates
TL;DR: In this paper, green leaves are applied as biotemplates to synthesize morph-TiO2 and the structural features favorable for light harvesting from the macro- to the nanoscale are replicated in morph- TiO2 through a two-step infiltration process and the N contained in the original leaves is self-doped into the resulting samples.
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Biologically inspired flexible photonic films for efficient passive radiative cooling.
Haiwen Zhang,Kally Chein Sheng Ly,Xianghui Liu,Zhihan Chen,Zhihan Chen,Max Yan,Zilong Wu,Xin Wang,Yuebing Zheng,Han Zhou,Tongxiang Fan +10 more
TL;DR: A bioinspired design of flexible hybrid photonic films for achieving efficient passive radiative cooling based on photonic radiators with high performance and large-scale production, showing great potential for energy savings and efficient power generation.