Jiannian Yao focuses on Nanotechnology, Optoelectronics, Photochemistry, Laser and Photonics. His research in Nanotechnology intersects with topics in Organic solar cell and Fullerene. Optoelectronics is closely attributed to Perovskite in his research.
His Photochemistry research is multidisciplinary, incorporating elements of Photocatalysis, Catalysis, Diimide, Perylene and Excited state. His study looks at the intersection of Photonics and topics like Resonator with Doping. His research integrates issues of Nanowire, Nanorod and Lithium in his study of Nanostructure.
Jiannian Yao mainly focuses on Photochemistry, Optoelectronics, Nanotechnology, Crystallography and Photonics. The concepts of his Photochemistry study are interwoven with issues in Acceptor, Ruthenium, Fluorescence, Excited state and Molecule. In his study, Perovskite is inextricably linked to Laser, which falls within the broad field of Optoelectronics.
His work on Nanostructure, Nanoparticle and Nanomaterials is typically connected to Fabrication as part of general Nanotechnology study, connecting several disciplines of science. His work carried out in the field of Crystallography brings together such families of science as Stereochemistry and Density functional theory. His Photonics research incorporates elements of Exciton and Semiconductor.
Jiannian Yao mainly investigates Optoelectronics, Catalysis, Laser, Lasing threshold and Perovskite. Jiannian Yao combines subjects such as Exciton and Single-mode optical fiber with his study of Optoelectronics. Jiannian Yao has researched Catalysis in several fields, including Carbon, Oxygen evolution, Doping and Oxygen.
In his work, Hydrogen bond, Fluorescence and Acceptor is strongly intertwined with Photochemistry, which is a subfield of Doping. His studies deal with areas such as Inkjet printing, Full color and Microscale chemistry as well as Laser. His Perovskite research integrates issues from Quantum well, Photoluminescence and Aromaticity.
His primary scientific interests are in Catalysis, Optoelectronics, Acceptor, Electrochemistry and Nanotechnology. His research in Optoelectronics focuses on subjects like Laser, which are connected to Perovskite and Inkjet printing. His Acceptor study combines topics in areas such as Organic solar cell, Nanorod, Band gap and Polymer solar cell.
He interconnects Carbon, Molecule and Aqueous solution in the investigation of issues within Electrochemistry. Jiannian Yao integrates Nanotechnology and Energy storage in his research. His work in Polymer addresses issues such as Absorption, which are connected to fields such as Photochemistry.
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Synthesis and Lithium Storage Properties of Co3O4 Nanosheet-Assembled Multishelled Hollow Spheres
Xi Wang;Xing-Long Wu;Yu-Guo Guo;Yeteng Zhong.
Advanced Functional Materials (2010)
Scalable Fabrication of Nanoporous Carbon Fiber Films as Bifunctional Catalytic Electrodes for Flexible Zn-Air Batteries.
Qin Liu;Yaobing Wang;Liming Dai;Jiannian Yao.
Advanced Materials (2016)
Elimination of Photon Quenching by a Transition Layer to Fabricate a Quenching-Shield Sandwich Structure for 800 nm Excited Upconversion Luminescence of Nd3+ Sensitized Nanoparticles
Yeteng Zhong;Gan Tian;Gan Tian;Zhanjun Gu;Yijun Yang.
Advanced Materials (2014)
A Potential Perylene Diimide Dimer-Based Acceptor Material for Highly Efficient Solution-Processed Non-Fullerene Organic Solar Cells with 4.03% Efficiency
Xin Zhang;Zhenhuan Lu;Long Ye;Chuanlang Zhan.
Advanced Materials (2013)
Perovskite Microdisk Microlasers Self‐Assembled from Solution
Qing Liao;Ke Hu;Haihua Zhang;Xuedong Wang.
Advanced Materials (2015)
Controllable assembly of WO3 nanorods/nanowires into hierarchical nanostructures.
Zhanjun Gu;Tianyou Zhai;Bifen Gao;Xiaohai Sheng.
Journal of Physical Chemistry B (2006)
Facile preparation of N- and O-doped hollow carbon spheres derived from poly(o-phenylenediamine) for supercapacitors
Chengqian Yuan;Xianhu Liu;Meiye Jia;Zhixun Luo.
Journal of Materials Chemistry (2015)
Design of Diketopyrrolopyrrole (DPP)-Based Small Molecules for Organic-Solar-Cell Applications.
Ailing Tang;Chuanlang Zhan;Jiannian Yao;Erjun Zhou.
Advanced Materials (2017)
A nonfullerene acceptor with a 1000 nm absorption edge enables ternary organic solar cells with improved optical and morphological properties and efficiencies over 15
Tao Liu;Zhenghui Luo;Yuzhong Chen;Tao Yang.
Energy and Environmental Science (2019)
Fabrication of high-quality In2Se3 nanowire arrays toward high-performance visible-light photodetectors.
Tianyou Zhai;Tianyou Zhai;Xiaosheng Fang;Meiyong Liao;Xijin Xu.
ACS Nano (2010)
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