公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2021 | In Situ/ Operando Methods of Characterizing All-Solid-State Li-Ion Batteries: Understanding Li-Ion Transport during Cycle | Jena, A.; Tong, Z.; Bazri, B.; Iputera, K.; Chang, H.; Hu, S.-F.; Liu, R.-S.; RU-SHI LIU | Journal of Physical Chemistry C | 8 | 8 | |
2020 | Interface between solid-state electrolytes and li-metal anodes: Issues, materials, and processing routes | Tong, Z.; Wang, S.-B.; Liao, Y.-K.; Hu, S.-F.; Liu, R.-S.; RU-SHI LIU | ACS Applied Materials and Interfaces | 60 | 51 | |
2020 | Investigation of the effects of P1 on HC-pro-mediated gene silencing suppression through genetics and omics approaches | Hu, S.-F.; Wei, W.-L.; Hong, S.-F.; Fang, R.-Y.; Wu, H.-Y.; Lin, P.-C.; Sanobar, N.; Wang, H.-P.; Sulistio, M.; Wu, C.-T.; Lo, H.-F.; SHIH-SHUN LIN ; HSIAO-FENG LO ; CHUN-TA WU et al. | Botanical Studies | 16 | 14 | |
2020 | Lfo-miR164b and LfNAC1 as autumn leaf senescence regulators in Formosan sweet gum (Liquidambar formosana Hance) | Wen, C.-H.; Hong, S.-F.; Hu, S.-F.; Lin, S.-S.; SHIH-SHUN LIN ; FANG-HUA CHU | Plant Science | 3 | 2 | |
2020 | Matchmaker of Marriage between a Li Metal Anode and NASICON-Structured Solid-State Electrolyte: Plastic Crystal Electrolyte and Three-Dimensional Host Structure | Tong, Z.; Wang, S.-B.; Jena, A.; Liu, C.-E.; Liao, S.-C.; Chen, J.-M.; Chang, H.; Hu, S.-F.; Guo, X.; Liu, R.-S.; RU-SHI LIU | ACS Applied Materials and Interfaces | 22 | 23 | |
2020 | Multi-Site Cation Control of Ultra-Broadband Near-Infrared Phosphors for Application in Light-Emitting Diodes | Guzman, G.N.A.D.; Rajendran, V.; Bao, Z.; Fang, M.-H.; Pang, W.-K.; Mahlik, S.; Lesniewski, T.; Grinberg, M.; Molokeev, M.S.; Leniec, G.; Kaczmarek, S.M.; Ueda, J.; Lu, K.-M.; Hu, S.-F.; Chang, H.; Liu, R.-S.; RU-SHI LIU | Inorganic Chemistry | 44 | 34 | |
2020 | Near-infrared phosphors and their full potential: A review on practical applications and future perspectives | De Guzman, G.N.A.; Fang, M.-H.; Liang, C.-H.; Bao, Z.; Hu, S.-F.; Liu, R.-S.; RU-SHI LIU | Journal of Luminescence | 102 | 88 | |
2020 | Phosphorous-doped molybdenum disulfide anchored on silicon as an efficient catalyst for photoelectrochemical hydrogen generation | CHIH-JUNG CHEN ; Veeramani, V.; Wu, Y.-H.; Jena, A.; Yin, L.-C.; Chang, H.; Hu, S.-F.; Liu, R.-S.; RU-SHI LIU | Applied Catalysis B: Environmental | 35 | 35 | |
2019 | Pressure-controlled chemical vapor deposition of graphene as catalyst for solar hydrogen evolution reaction | Han, C.-P.; CHIH-JUNG CHEN ; Hsu, C.-C.; Jena, A.; Chang, H.; Yeh, N.-C.; Hu, S.-F.; Liu, R.-S. | Catalysis Today | 6 | 3 | |
2019 | Quantum dots for light conversion, therapeutic and energy storage applications | Veeramani, V.; Bao, Z.; Chan, M.-H.; Wang, H.-C.; Jena, A.; Chang, H.; Hu, S.-F.; Liu, R.-S. | Journal of Solid State Chemistry | 16 | 14 | |
2018 | Super broadband near-infrared phosphors with high radiant flux as future light sources for spectroscopy applications | Rajendran, V.; Fang, M.-H.; Guzman, G.N.D.; Lesniewski, T.; Mahlik, S.; Grinberg, M.; Leniec, G.; Kaczmarek, S.M.; Lin, Y.-S.; Lu, K.-M.; Lin, C.-M.; Chang, H.; Hu, S.-F.; Liu, R.-S. | ACS Energy Letters | 251 | 225 | |
2019 | Ultra-Broadband Phosphors Converted Near-Infrared Light Emitting Diode with Efficient Radiant Power for Spectroscopy Applications | Rajendran, V.; Lesniewski, T.; Mahlik, S.; Grinberg, M.; Leniec, G.; Kaczmarek, S?.M.; Pang, W.-K.; Lin, Y.-S.; Lu, K.-M.; Lin, C.-M.; Chang, H.; Hu, S.-F.; Liu, R.-S.; RU-SHI LIU | ACS Photonics | 61 | 56 | |
2020 | Ultra-high-efficiency near-infrared Ga2O3:Cr3+phosphor and controlling of phytochrome | Fang, M.-H.; De Guzman, G.N.A.; Bao, Z.; Majewska, N.; Mahlik, S.; Grinberg, M.; Leniec, G.; Kaczmarek, S.M.; Yang, C.-W.; Lu, K.-M.; Sheu, H.-S.; Hu, S.-F.; Liu, R.-S.; RU-SHI LIU | Journal of Materials Chemistry C | 93 | 86 | |
2018 | Vertically-aligned graphene nanowalls grown via plasma-enhanced chemical vapor deposition as a binder-free cathode in Li–O2 batteries | Han, C.-P.; Veeramani, V.; Hsu, C.-C.; Jena, A.; Chang, H.; Yeh, N.-C.; Hu, S.-F.; Liu, R.-S. | Nanotechnology | 13 | 13 | |