開設科目

土壤化學、礦物學

學歷

國立中興大學土壤環境科學系博士

研究專長

土壤化學、土壤礦物學、X光吸收光譜、同步輻射臨場實驗

研究領域

Prof. Hsu is an expert in applying synchrotron-based techniques, including X-ray Absorption Spectroscopy (XAS), X-ray Diffraction (XRD), and X-ray Photoelectron Spectroscopy (XPS), to the fields of clay mineralogy, environmental science, and photoelectrochemical materials. As a former beamline scientist at the National Synchrotron Radiation Research Center in Taiwan, he has over a decade of experience, starting from his doctoral degree, in developing and implementing in-situ XAS measurements and analyses. His work has been instrumental in advancing the development of new catalysts and elucidating molecular mechanisms for element cycling in the environment.

研究著作

[1] I.-H. Tseng, Y.-H. Yang, Y.-T. Chen, L.-C. Hsu, Tailoring Copper Chemical Status and Hydrophobicity of Biomimetic Photocatalytic Films for Carbon Dioxide Conversion, ACS Applied Materials & Interfaces, 15 (2023) 5038-5048.
[2] Y.-H. Liu, C.-J. Hsieh, L.-C. Hsu, K.-H. Lin, Y.-C. Hsiao, C.-C. Chi, J.-T. Lin, C.-W. Chang, S.-C. Lin, C.-Y. Wu, Toward controllable and predictable synthesis of high-entropy alloy nanocrystals, Science Advances, 9 (2023) eadf9931.
[3] Y. Liu, L.-Y. Chang, L.-C. Hsu, M.C. Adam, Y. Jiang, L.V. Goncharova, L. Liu, The role of Li+ and Yb3+ in modulating the electronic structure and luminescence of MgGeO3: Mn2+ nanoparticles, Journal of Alloys and Compounds, 957 (2023) 170422.
[4] W.-H. Li, L.-C. Hsu, Y.-M. Tzou, Y.-C. Chen, H.Y. Teah, Y.-Y. Kung, H.-Y. Chen, Y.-T. Liu, Hybridize magnesium-iron layered double hydroxide with biopolymers to develop multiple pathways for phosphate sorption and release: A potential slow release phosphorus fertilizer, Chemical Engineering Journal, 473 (2023) 145451.
[5] W.-D. Dong, Y. Li, C.-F. Li, Z.-Y. Hu, L.-C. Hsu, L.-H. Chen, Y. Li, A. Lei, B.-L. Su, Atomically dispersed Co-N4C2 catalytic sites for wide-temperature Na-Se batteries, Nano Energy, 105 (2023) 108005.
[6] Y.-L. Cho, Y.-M. Tzou, C.-C. Wang, Y.-C. Lee, L.-C. Hsu, S.-L. Liu, A. Assakinah, Y.-H. Chen, N.A.T. Than, Y.-T. Liu, Removal and concurrent reduction of Cr (VI) by thermoacidophilic Cyanidiales: A novel extreme biomaterial enlightened for acidic and neutral conditions, Journal of Hazardous Materials, 445 (2023) 130334.
[7] S.M. Shaheen, J. Wang, K. Baumann, A.A. Ahmed, L.-C. Hsu, Y.-T. Liu, S.-L. Wang, O. Kühn, P. Leinweber, J. Rinklebe, Stepwise redox changes alter the speciation and mobilization of phosphorus in hydromorphic soils, Chemosphere, 288 (2022) 132652.
[8] K.H. Ng, L.-C. Hsu, Y.-T. Liu, C.-Y. Hsiao, P.-N. Chiang, H.Y. Teah, J.-T. Hung, Y.-M. Tzou, Cross-redox and simultaneous removal of Cr (VI) and As (III): Influences of Fe (II), Fe (III), oxalic acid, and dissolved organic carbon, Ecotoxicology and Environmental Safety, 245 (2022) 114084.
[9] V. Lourdhusamy, J.-L. Chen, I. Paulraj, L.-C. Hsu, Y.-Y. Li, T.-S. Yang, K.V. Prabu, C.-J. Liu, Enhanced thermoelectric performance of polycrystalline InSb1− xBix by using isoelectronic substitution on the Sb site, Journal of Alloys and Compounds, 920 (2022) 165949.
[10] L.-C. Lin, C.-H. Kuo, Y.-H. Hsu, L.-C. Hsu, H.-Y. Chen, J.-L. Chen, Y.-T. Pan, High-performance intermetallic PtCo oxygen reduction catalyst promoted by molybdenum, Applied Catalysis B: Environmental, 317 (2022) 121767.
[11] L.-C. Hsu, Y.-M. Tzou, W.-H. Liao, H.Y. Teah, Y.-T. Liu, Transformation of sedimentary and colloidal phosphorus across the land‒sea margin received effluents from agricultural and municipal activities, Journal of Cleaner Production, 379 (2022) 134686.
[12] C.-T. Chiu, Y.-J. Teng, B.-H. Dai, I.-Y. Tsao, W.-C. Lin, K.-W. Wang, L.-C. Hsu, Y.-C. Chang, C.-T. Li, H.T.T. Nguyen, Novel high-entropy ceramic/carbon composite materials for the decomposition of organic pollutants, Materials Chemistry and Physics, 275 (2022) 125274.
[13] F. Cheng, X. Peng, L. Hu, B. Yang, Z. Li, C.-L. Dong, J.-L. Chen, L.-C. Hsu, L. Lei, Q. Zheng, Accelerated water activation and stabilized metal-organic framework via constructing triangular active-regions for ampere-level current density hydrogen production, Nature Communications, 13 (2022) 6486.
[14] K.-Y. Chen, Y.-M. Tzou, L.-C. Hsu, J.-W. Guo, Y.-L. Cho, H.-Y. Teah, Y.-C. Hsieh, Y.-T. Liu, Oxidative removal of thallium (I) using Al beverage can waste with amendments of Fe: Tl speciation and removal mechanisms, Chemical Engineering Journal, 427 (2022) 130846.
[15] S. Zhang, X. Yang, L.-C. Hsu, Y.-T. Liu, S.-L. Wang, J.R. White, S.M. Shaheen, Q. Chen, J. Rinklebe, Soil acidification enhances the mobilization of phosphorus under anoxic conditions in an agricultural soil: Investigating the potential for loss of phosphorus to water and the associated environmental risk, Science of the Total Environment, 793 (2021) 148531.
[16] C.-Y. Lin, S.-C. Huang, Y.-G. Lin, L.-C. Hsu, C.-T. Yi, Electrosynthesized Ni-P nanospheres with high activity and selectivity towards photoelectrochemical plastics reforming, Applied Catalysis B: Environmental, 296 (2021) 120351.
[17] C.-W. Liao, S.-Y. Chen, L.-C. Hsu, C.-W. Lin, J.-L. Chen, C.-H. Kuo, Y.-H. Chang, Insights into electrocatalytic oxygen evolution over hierarchical FeCo2S4 nanospheres, ACS Sustainable Chemistry & Engineering, 10 (2021) 431-440.
[18] L.-C. Hsu, Y.-M. Tzou, M.-S. Ho, C. Sivakumar, Y.-L. Cho, W.-H. Li, P.-N. Chiang, H.Y. Teah, Y.-T. Liu, Preferential phosphate sorption and Al substitution on goethite, Environmental Science: Nano, 7 (2020) 3497-3508.