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Peer-Reviewed Journal Articles
2024
[15] Exploring MOF-Derived CuO/rGO Heterostructures for Highly Efficient Room Temperature CO2 Sensors
Toton Haldar, Jia-Wei Shiu, Ren-Xuan Yang, Wei-Qi Wang, Hsin-Ting Wu, Hsu-I Mao, Chin-Wen Chen*, Chi-Hua Yu*
ACS Sensors Article ASAP DOI: 10.1021/acssensors.4c01397 (2023 IF: 8.4) doi.org/10.1016/j.scitotenv.2024.173394
This article is a collaborative research work on CO2 sensor development, leading by Prof. Chin-Wen Chen from the Department of Molecular Science, NTUT, and Prof. Chi-Hua Yu, NCKU .
[14] Upcycling of post-consumer polyethylene terephthalate bottles into aluminum-based metal-organic framework adsorbents for efficient orthophosphate removal
Jirawan Jindakaew, Chalita Ratanatawanate, Jeanneau Erwann, Chariya Kaewsaneha, Paiboon Sreearunothai, Pakorn Opaprakasit*, Ren-Xuan Yang*, Abdelhamid Elaissari
Science of the Total Environment, 2024, 935, 173394 (2023 IF: 8.2) doi.org/10.1016/j.scitotenv.2024.173394
This article is our first international collaborative joint research work with Thammasat University (Prof. Pakorn from SIIT) supported by the National Taipei University of Technology and Thammasat University (NTUT-TU-112-05).
2023
[13] Coking-Resistant NiO@CeO2 Catalysts Derived from Ce-MOF for Enhanced Hydrogen Production from Plastics
Chang-Yen Hsu, Wei-Ting Chung, Tzu-Ming Lin, Ren‐Xuan Yang*, Season Si Chen*, Kevin C‐W Wu*
International Journal of Hydrogen Energy, 2023, In press (2022 IF: 7.2) doi.org/10.1016/j.ijhydene.2023.08.080
2022
Ren‐Xuan Yang*, Kalsoom Jan, Ching‐Tien Chen, Wan‐Ting Chen*, Kevin C‐W Wu*
ChemSusChem, 2022, 15, e202200171 (2022 IF: 8.4 ) doi.org/10.1002/cssc.202200171
2021
Ren-Xuan Yang, Yen-Tsz Bieh, Celine H Chen, Chang-Yen Hsu, Yuki Kato, Hideki Yamamoto, Chia-Kuang Tsung*, Kevin C-W Wu*
ACS Sustainable Chemistry & Engineering, 2021, 9, 19, 6541-6550 (2022 IF: 8.4) doi.org/10.1021/acssuschemeng.0c08012
[10] Recent progress in the development of biomass-derived nitrogen-doped porous carbon
Babasaheb M Matsagar*, Ren-Xuan Yang, Saikat Dutta, Yong Sik Ok, Kevin C-W Wu*
Journal of Materials Chemistry A, 2021, 9, 3703-3728 (2022 IF: 11.9) doi.org/10.1039/D0TA09706C
2020
[9] Co-production of carbon nanotubes and hydrogen from waste plastic gasification in a two-stage fluidized catalytic bed
Ren-Xuan Yang, Shan-Luo Wu, Kui-Hao Chuang, Ming-Yen Wey*
Renewable Energy, 2020, 159, 10-22 (2022 IF: 8.7) doi.org/10.1016/j.renene.2020.05.141
2019
[8] Effect of Preparation Solvent and Calcination Atmosphere on Ni@SiO2 Catalyst for Simultaneous Production of Hydrogen and Carbon Nanotubes from Simulated Plastic Waste Syngas
Wei-Jing Li, Jia-Hong Kuo, Ren-Xuan Yang, Ming-Yen Wey*
Energy Technology, 2019, 7, 1800586 (2022 IF: 3.8) doi.org/10.1002/ente.201800586
2018
[7] Catalytic Methane Decomposition to Hydrogen over a Surface‐Protected Core‐Shell Ni@SiO2 Catalyst
Shan-Luo Wu, Ren-Xuan Yang, Ming-Yen Wey*
Chemical Engineering & Technology, 2018, 41, 1448-1456 (2022 IF: 2.1) doi.org/10.1002/ceat.201700315
[6] Effects of Temperature and Equivalence Ratio on Carbon Nanotubes and Hydrogen Production from Waste Plastic Gasification in Fluidized Bed
Ren-Xuan Yang, Kui-Hao Chuang, and Ming-Yen Wey*
Energy & Fuels, 2018, 32, 5462-5470 (2022 IF: 5.3) doi.org/10.1021/acs.energyfuels.7b04109
Before 2018
[5] Ni/SiO2 core–shell catalysts for catalytic hydrogen production from waste plastics-derived syngas
Ren-Xuan Yang, Li-Ru Xu, Shan-Luo Wu, Kui-Hao Chuang, and Ming-Yen Wey*
International Journal of Hydrogen Energy, 2017, 42(16), 11239-11251 (2022 IF: 7.2) doi.org/10.1016/j.ijhydene.2017.03.114
[4] Carbon nanotube and hydrogen production from waste plastic gasification over Ni/Al–SBA-15 catalysts: effect of aluminum content
Ren-Xuan Yang, Kui-Hao Chuang, and Ming-Yen Wey*
RSC Advances, 2016, 6(47), 40731-40740 (2022 IF: 3.9) https://doi.org/10.1039/C6RA04546D
[3] Effects of Nickel Species on Ni/Al2O3 Catalysts in Carbon Nanotube and Hydrogen Production by Waste Plastic Gasification: Bench- and Pilot-Scale Tests
Ren-Xuan Yang, Kui-Hao Chuang, and Ming-Yen Wey*
Energy & Fuels, 2015, 29(12), 8178-8187 (2022 IF: 5.3) doi.org/10.1021/acs.energyfuels.5b01866
[2] Hydrogen production through methanol steam reforming: effect of synthesis parameters on Ni–Cu/CaO–SiO2 catalysts activity
Ren-Xuan Yang, Kui-Hao Chuang, and Ming-Yen Wey*
International Journal of Hydrogen Energy, 2014, 39(34), 19494-19501 (2022 IF: 7.2) doi.org/10.1016/j.ijhydene.2014.09.14
[1] Hydrogen production by biomass gasification in a fluidized-bed reactor promoted by an Fe/CaO catalyst
Bing-Shun Huang, Hsin-Yi Chen, Kui-Hao Chuang, Ren-Xuan Yang, Ming-Yen Wey*
International Journal of Hydrogen Energy, 2012, 37(8), 6511-6518 (2022 IF: 7.2) doi.org/10.1016/j.ijhydene.2012.01.071
Book and Book Chapters
[3] 楊任軒、鄭華琦、朱新瑞、陳思源、芮嘉瑋、陳偉聖、劉凡瑋、譚瑾瑜、林巍,「面對國際關鍵礦物資源出口管制之因應」,財團法人中技社專題報告2024-08期,2024。https://www.ctci.org.tw/8838/publication/10798/45938/
[2] 楊任軒、鍾韻柔,「廢塑膠熱裂解結合重組反應轉化為合成氣」,工業材料雜誌443期,2023。https://www.materialsnet.com.tw/DocView.aspx?id=53514
[1] 楊任軒、方聖予、周靜、張致吉,「稀土關鍵材料供應鏈危機下的衝擊與因應」,財團法人中技社專題報告2022-03期,2022。https://www.ctci.org.tw/8838/research/26382/44145/
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