His primary scientific interests are in Nanotechnology, Thermochromism, Transmittance, Phase transition and Porosity. His Nanotechnology research is mostly focused on the topic Vanadium dioxide. His Thermochromism research includes elements of Optoelectronics, Self-healing hydrogels and Nanostructure.
In Transmittance, Yi Long works on issues like Thin film, which are connected to Nanopore, Nanoporous and Vanadium. His Phase transition study integrates concerns from other disciplines, such as Rutile, Nanoparticle, Absorption and Hydrothermal circulation. His Porosity research includes elements of Inorganic chemistry and Metal-organic framework.
Nanotechnology, Optoelectronics, Transmittance, Thermochromism and Vanadium dioxide are his primary areas of study. Many of his research projects under Nanotechnology are closely connected to Electronics with Electronics, tying the diverse disciplines of science together. His work in the fields of Plasmon overlaps with other areas such as Solar energy.
His studies examine the connections between Transmittance and genetics, as well as such issues in Thin film, with regards to Sol-gel and Vanadium. His study in Thermochromism is interdisciplinary in nature, drawing from both Nanoporous, Nanoparticle and Doping. The various areas that he examines in his Vanadium dioxide study include Smart material and Refractive index.
The scientist’s investigation covers issues in Optoelectronics, Transmittance, Nanotechnology, Vanadium dioxide and Plasmon. His Optoelectronics research integrates issues from Laser and Transition temperature. His work carried out in the field of Transmittance brings together such families of science as Vanadium oxide and Nanoparticle.
His Nanotechnology research incorporates elements of Durability, Self-healing hydrogels and 4d printing. His Vanadium dioxide study combines topics from a wide range of disciplines, such as Physical vapor deposition, 3D printing and Nanostructure. His studies in Plasmon integrate themes in fields like Molecular physics, Surface plasmon resonance, Optical anisotropy and Raman spectroscopy.
His primary areas of investigation include Nanotechnology, Transmittance, Optoelectronics, Plasmon and Window. His research in Nanotechnology is mostly focused on Nanoparticle. His Transmittance study frequently involves adjacent topics like Durability.
He has researched Optoelectronics in several fields, including Amorphous solid and Nonlinear optics. His work deals with themes such as Polarizer and Raman scattering, which intersect with Plasmon. His work in Window incorporates the disciplines of Energy conservation, Soundproofing, Phase-change material, Thermal energy storage and Automotive engineering.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Zeolitic Imidazolate Framework 67‐Derived High Symmetric Porous Co3O4 Hollow Dodecahedra with Highly Enhanced Lithium Storage Capability
Renbing Wu;Xukun Qian;Xukun Qian;Xianhong Rui;Hai Liu.
Highly Stretchable, Elastic, and Ionic Conductive Hydrogel for Artificial Soft Electronics
Yang Zhou;Changjin Wan;Yongsheng Yang;Hui Yang.
Advanced Functional Materials (2019)
Black Phosphorus Nanosheets: Synthesis, Characterization and Applications.
Varrla Eswaraiah;Qingsheng Zeng;Yi Long;Zheng Liu.
Recent progress in VO2 smart coatings: Strategies to improve the thermochromic properties
Shufen Wang;Minsu Liu;Ling Bing Kong;Yi Long.
Progress in Materials Science (2016)
Smart Windows: Electro-, Thermo-, Mechano-, Photochromics, and Beyond
Yujie Ke;Jingwei Chen;Gaojian Lin;Shancheng Wang.
Advanced Energy Materials (2019)
Hydrothermal Synthesis of VO2 Polymorphs: Advantages, Challenges and Prospects for the Application of Energy Efficient Smart Windows
Ming Li;Shlomo Magdassi;Yanfeng Gao;Yi Long.
Thermochromic VO2 for Energy-Efficient Smart Windows
Yuanyuan Cui;Yujie Ke;Chang Liu;Zhang Chen.
VO2/hydrogel hybrid nanothermochromic material with ultra-high solar modulation and luminous transmission
Yang Zhou;Yufeng Cai;Xiao Hu;Yi Long.
Journal of Materials Chemistry (2015)
Controllable Fabrication of Two-Dimensional Patterned VO2 Nanoparticle, Nanodome, and Nanonet Arrays with Tunable Temperature-Dependent Localized Surface Plasmon Resonance
Yujie Ke;Xinglin Wen;Dongyuan Zhao;Renchao Che.
ACS Nano (2017)
Temperature-responsive hydrogel with ultra-large solar modulation and high luminous transmission for “smart window” applications
Yang Zhou;Yufeng Cai;Xiao Hu;Yi Long.
Journal of Materials Chemistry (2014)
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