1 |
High-temperature-resistant and colorless polyimide: Preparations, properties, and applications Yi CH, Li WM, Shi S, He K, Ma PC, Chen M, Yang CL Solar Energy, 195, 340, 2020 |
2 |
Oxygen vacancy-rich ultrathin sulfur-doped bismuth oxybromide nanosheet as a highly efficient visible-light responsive photocatalyst for environmental remediation Wang Q, Liu ZQ, Liu DM, Wang W, Zhao ZW, Cui FY, Li GB Chemical Engineering Journal, 360, 838, 2019 |
3 |
Hydrogen concentration effects on swirl-stabilized oxy-colorless distributed combustion Karyeyen S, Feser JS, Gupta AK Fuel, 253, 772, 2019 |
4 |
Hollow silica nanosphere/polyimide composite films for enhanced transparency and atomic oxygen resistance Zhang J, Ai L, Li X, Zhang XP, Lu YH, Chen GF, Fang XZ, Dai N, Tan RQ, Song WJ Materials Chemistry and Physics, 222, 384, 2019 |
5 |
Preparation of colorless polyimide hybrid films with enhanced optical, chemical and thermal resistance Choi WT, Kim DW, Jeong YT, Hong SS, Gal YS, Lim KT Molecular Crystals and Liquid Crystals, 679(1), 87, 2019 |
6 |
Synthesis of colorless and highly refractive Poly(phenylene thioether ether) derived from 2,7-(4,4 '-diphenol)thiothianthrene Oh N, Nam KH, Goh M, Ku BC, Kim JG, You NH Polymer, 165, 191, 2019 |
7 |
Colorless-to-black electrochromic materials and solid-state devices with high optical contrast based on cross-linked Poly(4-vinyltriphenylamine) Zeng JM, Li H, Wan ZJ, Ai LH, Liu P, Deng WJ Solar Energy Materials and Solar Cells, 195, 89, 2019 |
8 |
Ultrathin two-dimensional BiOBrxI1-x solid solution with rich oxygen vacancies for enhanced visible-light-driven photoactivity in environmental remediation Wang Q, Liu ZQ, Liu DM, Liu GS, Yang M, Cui FY, Wang W Applied Catalysis B: Environmental, 236, 222, 2018 |
9 |
Fostering distributed combustion in a swirl burner using prevaporized liquid fuels Khalil AEE, Gupta AK Applied Energy, 211, 513, 2018 |
10 |
Synthesis of a new diamine and its effect on the residual stress of colorless polyimide Lee JH, Kim KG, Kim GH, Han HS Korean Journal of Chemical Engineering, 35(3), 777, 2018 |