151 |
Interpretations of voltammograms in a typical two-electrode cell: application to complementary electrochromic systems Chen LC, Ho KC Electrochimica Acta, 46(13-14), 2159, 2001 |
152 |
Nonlinear diffusion behavior for the prussian blue electrode -I. Variable diffusivity revealed by potentiostatic intermittent titration technique-chronoabsorptometry Chen CL, Ho KC Journal of the Electrochemical Society, 148(6), E282, 2001 |
153 |
The role of surface chemistry in zeolite membrane formation Chau JLH, Tellez C, Yeung KL, Ho KC Journal of Membrane Science, 164(1-2), 257, 2000 |
154 |
Controlled sulfonation of poly(N-vinylcarbazole) Wang SH, Zeng ZH, Yang SH, Weng LT, Wong PCL, Ho KC Macromolecules, 33(9), 3232, 2000 |
155 |
Surface studies of polymers with a well-defined segmental length by ToF-SIMS and XPS. Relationship between the surface chemical composition and segmental length Li L, Chan CM, Liu SY, An LJ, Ng KM, Weng LT, Ho KC Macromolecules, 33(21), 8002, 2000 |
156 |
Cycling and at-rest stabilities of a complementary electrochromic device based on tungsten oxide and Prussian blue thin films Ho KC Electrochimica Acta, 44(18), 3227, 1999 |
157 |
The influence of charge capacity ratio on the performance of a complementary electrochromic system Ho KC Solar Energy Materials and Solar Cells, 56(3), 271, 1999 |
158 |
Spectroelectrochemical studies of indium hexacyanoferrate electrodes prepared by the sacrificial anode method Ho KC, Chen JC Journal of the Electrochemical Society, 145(7), 2334, 1998 |
159 |
Trans Influence of Phosphines on Dimer-Monomer Interconversion of 2-Pyridinethiolate Complexes - Structures of (Pd(Mu-Eta(2)-Pys-N,S)Cl(L))(2) (L=pme(2)pH, Pmeph(2)) and Pd(Eta(2)-Pys)Cl(Pph(3)) Gupta M, Cramer RE, Ho KC, Pettersen C, Mishina S, Belli J, Jensen CM Inorganic Chemistry, 34(1), 60, 1995 |
160 |
Tungsten-Oxide Prussian Blue Electrochromic System Based on a Proton-Conducting Polymer Electrolyte Ho KC, Rukavina TG, Greenberg CB Journal of the Electrochemical Society, 141(8), 2061, 1994 |