The scientist’s investigation covers issues in Perovskite, Optics, Optoelectronics, Nanotechnology and Metamaterial. His Perovskite research incorporates elements of Energy conversion efficiency, Halide, Auxiliary electrode, Mesoporous material and Solar cell. His biological study spans a wide range of topics, including Angular momentum, Phase and Orbital angular momentum of light.
His work carried out in the field of Optoelectronics brings together such families of science as Fabrication and Solid-state chemistry. His studies examine the connections between Nanotechnology and genetics, as well as such issues in Mesoscopic physics, with regards to Carbon. Xiong Li combines subjects such as Plasmon and Nanophotonics with his study of Metamaterial.
Xiong Li mainly focuses on Optics, Optoelectronics, Metamaterial, Plasmon and Polarization. His Optics research is multidisciplinary, relying on both Catenary and Angular momentum. His Optoelectronics study integrates concerns from other disciplines, such as Perovskite and Fabrication.
The concepts of his Perovskite study are interwoven with issues in Layer, Mesoscopic physics, Halide, Mesoporous material and Solar cell. His Metamaterial research focuses on Electromagnetic radiation and how it connects with Bandwidth. He regularly links together related areas like Nanotechnology in his Energy conversion efficiency studies.
His scientific interests lie mostly in Optics, Optoelectronics, Plasmon, Diffraction and Holography. His work in the fields of Optics, such as Ray, Microscopy, Chromatic aberration and Infrared, overlaps with other areas such as Structured illumination microscopy. His work on Dielectric and Energy conversion efficiency as part of general Optoelectronics study is frequently connected to Imagination, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
The various areas that Xiong Li examines in his Plasmon study include Nanostructure, Transistor, Lithography and Atomic layer deposition. His study in Diffraction is interdisciplinary in nature, drawing from both Interference, Quantum, Double-slit experiment and Photon. His studies deal with areas such as Amplitude and Multiplexing as well as Holography.
His primary scientific interests are in Optoelectronics, Plasmon, Optics, Catenary and Broadband. Xiong Li interconnects STRIPS and Visible band in the investigation of issues within Optoelectronics. His Plasmon research includes themes of Transistor, Fabrication and Atomic layer deposition.
His work on Chromatic aberration, Diffraction and Amplitude as part of general Optics study is frequently linked to Machine vision and Structural coloration, bridging the gap between disciplines. His research in Catenary intersects with topics in Electromagnetic radiation, Beam and Dielectric. His work deals with themes such as Wavefront and Nanomaterials, which intersect with Broadband.
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A hole-conductor-free, fully printable mesoscopic perovskite solar cell with high stability
Anyi Mei;Xiong Li;Linfeng Liu;Zhiliang Ku.
A vacuum flash-assisted solution process for high-efficiency large-area perovskite solar cells.
Xiong Li;Dongqin Bi;Chenyi Yi;Jean-David Décoppet.
Polymer-templated nucleation and crystal growth of perovskite films for solar cells with efficiency greater than 21%
Dongqin Bi;Chenyi Yi;Jingshan Luo;Jean-David Décoppet.
Nature Energy (2016)
Improved performance and stability of perovskite solar cells by crystal crosslinking with alkylphosphonic acid ω-ammonium chlorides.
Xiong Li;M. Ibrahim Dar;Chenyi Yi;Jingshan Luo.
Nature Chemistry (2015)
Multicolor 3D meta-holography by broadband plasmonic modulation
Xiong Li;Lianwei Chen;Yang Li;Xiaohu Zhang.
Science Advances (2016)
Catenary optics for achromatic generation of perfect optical angular momentum
Mingbo Pu;Xiong Li;Xiaoliang Ma;Yanqin Wang.
Science Advances (2015)
Beyond Efficiency: the Challenge of Stability in Mesoscopic Perovskite Solar Cells
Yaoguang Rong;Linfeng Liu;Anyi Mei;Xiong Li.
Advanced Energy Materials (2015)
Outdoor Performance and Stability under Elevated Temperatures and Long‐Term Light Soaking of Triple‐Layer Mesoporous Perovskite Photovoltaics
Xiong Li;Manuel Tschumi;Hongwei Han;Saeed Salem Babkair.
Energy technology (2015)
Isomer-Pure Bis-PCBM-Assisted Crystal Engineering of Perovskite Solar Cells Showing Excellent Efficiency and Stability.
Fei Zhang;Fei Zhang;Wenda Shi;Jingshan Luo;Norman Pellet;Norman Pellet.
Advanced Materials (2017)
Hole-Conductor-Free Mesoscopic TiO2/CH3NH3PbI3 Heterojunction Solar Cells Based on Anatase Nanosheets and Carbon Counter Electrodes
Yaoguang Rong;Zhiliang Ku;Anyi Mei;Tongfa Liu.
Journal of Physical Chemistry Letters (2014)
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