1 |
Effect of non-solvent from the phase inversion method on the morphology and performance of the anode supported microtubular solid oxide fuel cells Ren C, Zhang YX, Xu Q, Tian T, Chen FL International Journal of Hydrogen Energy, 45(11), 6926, 2020 |
2 |
Fabrication of micro-tubular solid oxide fuel cells using sulfur-free polymer binder via a phase inversion method Ren C, Wang SW, Liu T, Lin Y, Chen FL Journal of Power Sources, 290, 1, 2015 |
3 |
Effect of PEG additive on anode microstructure and cell performance of anode-supported MT-SOFCs fabricated by phase inversion method Ren C, Liu T, Maturavongsadit P, Luckanagul JA, Chen FL Journal of Power Sources, 279, 774, 2015 |
4 |
Effect of casting slurry composition on anode support microstructure and cell performance of MT-SOFCs by phase inversion method Ren C, Liu T, Mao YT, Maturavongsadit P, Luckanagul JA, Wang Q, Chen FL Electrochimica Acta, 149, 159, 2014 |
5 |
Anode-supported micro-tubular SOFCs fabricated by a phase-inversion and dip-coating process Chen CC, Liu MF, Yang L, Liu ML International Journal of Hydrogen Energy, 36(9), 5604, 2011 |
6 |
Micro-tubular solid oxide fuel cells fabricated from hollow fibres Droushiotis N, Doraswami U, Kelsall GH, Li K Journal of Applied Electrochemistry, 41(9), 1005, 2011 |
7 |
Dip coating fabrication process for micro-tubular SOFCs Torabi A, Etsell TH, Sarkar P Solid State Ionics, 192(1), 372, 2011 |
8 |
Morphological studies of macrostructure of Ni-CGO anode hollow fibres for intermediate temperature solid oxide fuel cells Othman MHD, Wu ZT, Droushiotis N, Kelsall G, Li K Journal of Membrane Science, 360(1-2), 410, 2010 |