Green Energy Technology Research Center (GETRC)
Research Field
One part of our research is mainly to detect and investigate the distribution and exposure of pollutants in the surrounding atmosphere environment and assess the risk of cancer, analyzing PM2.5 suspended particles and polycyclic aromatic hydrocarbons (PAHs) contained in the gaseous state. Furthermore, this technological achievement is leading at home and abroad. This theoretical innovation has been published in the international journal "Journal of Environmental Chemical Engineering". Additionally, this breakthrough technology has obtained the Taiwan invention patent (I687669), the US invention patent approval without revision (US 2020/0173969 A1), and the Chinese invention patent (patent number: ZL2018 1 1442549.0, certificate number: 4919978). In the past two years, we have focused on the green composite three-dimensional structure high energy storage core materials such as bundled multi-walled carbon nanotubes, environmentally friendly clay, and graphene oxide is grown without adding metal catalysts, which were first used in supercapacitor electrode energy storage applications. In addition to effectively reducing the demand for precious and rare metals and being environmentally friendly, two research results have been published in an international journal: Materials Today Chemistry. It has the potential to become a new type of green energy material. In addition, this breakthrough technology has been granted a Taiwan Invention Patent (I 794965) and a Japanese Invention Patent (Patent No. 特許 7165365).
The Green Energy Technology Research Center (GETRC) directed by Chair Professor Yan-Kun Su and Professor Shuhn-Shyurng Hou, GETRC focuses on four axes: energy conservation, energy creation, energy storage, and green energy strategy research. With the fruitful achievements from the local green energy practices, academic and research institute resources to recruit high-level researchers, cultivating our young scholars and doctoral students with more international experiences. GETRC will compete for recognition as one of the R&D centers whole world to establish international academic prestige and status for KSU and Taiwan.
Energy Storage Technology, Nanomaterials Technology, Sensing and Detection Analysis, Atmospheric Chemistry
In the past five years, I have published more than 20 domestic and foreign journal and seminar papers, applied for a total of 15 domestic and foreign patents, and have obtained 1 US invention patent, 1 Japanese invention patent, 2 Chinese invention patents, and 3 Taiwan invention patents. Domestic and foreign competition prize money is about NT$440,000. Besides, John McAleese, Ph.D. in Applied Chemistry from Imperial College London, and wrote a particular topic on BCNT energy storage core materials from my research results titled "3D Bundle-Like Multiwalled Carbon Nanotube Supercapacitors". (URL: https://www.azom.com/article.aspx?ArticleID=20891)
1. Zhong-Yun Hong, Lung-Chuan Chen, Yu-Chu M. Li, Hao-Lin Hsu, Chao-Ming Huang, Response surface methodology optimization in high-performance solid-state supercapattery cells using NiCo2S4-graphene hybrids, Molecules (2022) 27, 6867. ( IF = 4.927, Q2)
2. Hao-Lin Hsu**, Chih-Chiang Yang, Wei-Cheng Chiu, Shuhn-Shyurng Hou, Chun-Yu Lin, Chun-Liang Lin*, Kinetics, recycling, regeneration, and reusing of tri-phase catalytic nucleophilic substitution esterification, Molecular Catalysis (2022) 531, 112657. ( IF = 5.089, Q2)
3. Hao-Lin Hsu**, Wei-Cheng Chiu, Chih-Chiang Yang, Lung-Chuan Chen, Chun-Liang Lin, Chao-Ming Huang, Shuhn-Shyurng Hou*, Environmental-friendly three-dimensional carbon nanotubes grown by soil clay and graphene oxide nanosheets for energy storage, Materials Today Chemistry (2022) 23, 100644. ( IF = 7.613, Q1, 7 Citation)
4. Hao-Lin Hsu**, Milon Miah, Shyamal Kumar Saha, Jean-Hong Chen, Lung-Chuan Chen, Sheng-Yen Hsu*, Three-dimensional bundle-like multiwalled carbon nanotubes composite for supercapacitor electrode application, Materials Today Chemistry (2021) 22, 100569. (IF = 7.613, Q1, 9 Citation)
5. Hao-Lin Hsu, Chung-Yih Kou, Jih-Mirn Jehng, Chien-Tai Wei, Ching-Feng Wen, Jean-Hong Chen, Lung-Chuan Chen, Application of Graphene Oxide Aerogel to the Adsorption of Polycyclic Aromatic Hydrocarbons Emitted from the Diesel Vehicular Exhaust, Journal of Environmental Chemical Engineering 7 (2019) 103414. ( IF = 7.968, Q1, 15 Citation)
2003/08 ~ 2009/07 Ph.D., Department of Chemical Engineering, National Chung Hsing University / Taiwan