화학공학소재연구정보센터
검색결과 : 312건
No. Article
1 Void Space Control in Porous Carbon for High-Density Supercapacitive Charge Storage
Vijayan BL, Zain NKM, Misnon II, Reddy MV, Adams S, Yang CC, Anilkumar GM, Jose R
Energy & Fuels, 34(4), 5072, 2020
2 A layered porous Ni structure contributes to superior low-temperature performance of hydrogen storage alloys
Chen Y, Wen Z, Jia JH, Yang CC, Jiang Q
International Journal of Hydrogen Energy, 45(3), 2157, 2020
3 Boosting carbon dioxide electroreduction to C-1 feedstocks via theory-guided tailoring oxygen defects in porous tin-oxide nanocubes
He HC, Liu K, Liang KX, Mustapha A, Wang Z, Wu LL, Yang CC, Deng L, Guo SJ, Liu YN
Journal of Catalysis, 385, 246, 2020
4 Facile fabrication of thin metal oxide films on porous carbon for high density charge storage
Vijayan BL, Misnon II, Kumar GMA, Miyajima K, Reddy MV, Zaghib K, Karuppiah C, Yang CC, Jose R
Journal of Colloid and Interface Science, 562, 567, 2020
5 Solvent-free synthesis of N-doped nanoporous carbon materials as durable high-performance pH-universal ORR catalysts
Yu LJ, Yang CC, Zhang WD, Liu WQ, Wang HF, Qi JW, Xu L
Journal of Colloid and Interface Science, 575, 406, 2020
6 Liquid metal Ga-Sn alloy based ferrofluids with amorphous nano-sized Fe-Co-B magnetic particles
Yang CC, Liu Z, Yu MC, Bian XF
Journal of Materials Science, 55(27), 13303, 2020
7 Co-benefits of CO2 emission reduction and sintering performance improvement of limonitic laterite via hot exhaust-gas recirculation sintering
Zhu DQ, Xue YX, Pan J, Yang CC, Guo ZQ, Tian HY, Wang X, Huang QZ, Pan LT, Huang XZ
Powder Technology, 373, 727, 2020
8 An investigation into the distinctive sintering performance and consolidation mechanism of limonitic laterite ore
Zhu DQ, Xue YX, Pan J, Yang CC, Guo ZQ, Tian HY, Liao H, Pan LT, Huang XZ
Powder Technology, 367, 616, 2020
9 Force sensor fabrication by AgNWs film using 532 nm pulses laser
Yang CC, Lin YC, Hung MW, Tsai HY, Huang KC, Hsiao WT
Applied Surface Science, 484, 1019, 2019
10 Crystal structure and expression patterns of prolyl 4-hydroxylases from Phytophthora capsici
Song WW, Yang CC, Zhu CY, Morris PF, Zhang XG
Biochemical and Biophysical Research Communications, 508(4), 1011, 2019