| Achieving low-energy driven viologens-based electrochromic devices utilizing polymeric ionic liquids HC Lu, SY Kao, HF Yu, TH Chang, CW Kung, KC Ho ACS applied materials & interfaces 8 (44), 30351-30361, 2016 | 105 | 2016 |
| Electrospun membranes of imidazole-grafted PVDF-HFP polymeric ionic liquids for highly efficient quasi-solid-state dye-sensitized solar cells HW Pang, HF Yu, YJ Huang, CT Li, KC Ho Journal of Materials Chemistry A 6 (29), 14215-14223, 2018 | 40 | 2018 |
| Effect of trifluoromethyl substituents in benzyl-based viologen on the electrochromic performance: Optical contrast and stability HF Yu, KI Chen, MH Yeh, KC Ho Solar Energy Materials and Solar Cells 200, 110020, 2019 | 37 | 2019 |
| Modification of Nafion® Membrane via a Sol‐Gel Route for Vanadium Redox Flow Energy Storage Battery Applications SL Huang, HF Yu, YS Lin Journal of Chemistry 2017 (1), 4590952, 2017 | 37 | 2017 |
| Incorporating electrospun nanofibers of TEMPO-grafted PVDF-HFP polymer matrix in viologen-based electrochromic devices WN Wu, HF Yu, MH Yeh, KC Ho Solar Energy Materials and Solar Cells 208, 110375, 2020 | 22 | 2020 |
| Designing a hybrid type photoelectrochromic device with dual coloring modes for realizing ultrafast response/high optical contrast self-powered smart windows CY Cheng, YJ Chiang, HF Yu, LY Hsiao, CL Yeh, LY Chang, KC Ho, ... Nano Energy 90, 106575, 2021 | 20 | 2021 |
| Electrospun nanofibers composed of poly (vinylidene fluoride-co-hexafluoropropylene) and poly (oxyethylene)-imide imidazolium tetrafluoroborate as electrolytes for solid-state … HF Yu, SY Kao, HC Lu, YF Lin, H Feng, HW Pang, R Vittal, JJ Lin, KC Ho Solar Energy Materials and Solar Cells 177, 32-43, 2018 | 20 | 2018 |
| Comparisons of the electrochromic properties of poly (hydroxymethyl 3, 4-ethylenedioxythiophene) and poly (3, 4-ethylenedioxythiophene) thin films and the photoelectrochromic … CL Lin, CY Chen, HF Yu, KC Ho Solar energy materials and solar cells 202, 110132, 2019 | 15 | 2019 |
| Fluorinated benzyl viologens for enhanced electrochromism and remarkable stability in electrochromic devices: An in-situ mass exchange probing through EQCM GK Silori, HF Yu, YJ Huang, KC Ho Solar Energy Materials and Solar Cells 260, 112460, 2023 | 10 | 2023 |
| A transparent− green− blue electrochromic device based on 2, 2, 6, 6− tetramethyl− 1− piperidinyloxy (TEMPO), polyaniline, and HV (BF4) 2 R Vittal Solar Energy Materials and Solar Cells 200, 109993, 2019 | 10 | 2019 |
| Stable viologen-based electrochromic devices: Control of Coulombic interaction using multi-functional polymeric ionic liquid membranes HF Yu, CT Li, KC Ho Solar Energy Materials and Solar Cells 250, 112072, 2023 | 4 | 2023 |
| Viologens-based electrochromic materials and devices KC Ho, HC Lu, HF Yu | 4 | 2019 |
| Electrochromic device and method for fabricating the same TF Ko, CT Chang, PW Chen, HF Yu, KC Ho, SC Hsu, JY Wu, WF Tsai, ... US Patent App. 16/728,137, 2021 | 1 | 2021 |
Hsin-Che LuDepartment of Chemical Engineering, The University of Texas at AustinVerified email at utexas.edu