公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2013 | Microwave pyrolysis of rice straw: Products, mechanism, and kinetics | Huang Y.-F.; Chiueh P.-T. ; Kuan W.-H.; SHANG-LIEN LO | Bioresource Technology | 84 | 72 | |
2017 | Microwave Torrefaction of leucaena to Produce Biochar with High Fuel Ratio and Energy Return on Investment | Huang Y.-F.; Cheng P.-H.; PEI-TE CHIUEH ; SHANG-LIEN LO | Energy Procedia | 21 | 0 | |
2012 | Microwave torrefaction of rice straw and pennisetum | Huang Y.F.; Chen W.R.; Chiueh P.T. ; Kuan W.H.; SHANG-LIEN LO | Bioresource Technology | 101 | 88 | |
2017 | Microwave torrefaction of sewage sludge and leucaena | Huang Y.-F.; Sung H.-T.; Chiueh P.-T.; PEI-TE CHIUEH ; SHANG-LIEN LO | Journal of the Taiwan Institute of Chemical Engineers | 55 | 51 | |
2010 | Microwave-assisted hydrothermal synthesis of N-doped titanate nanotubes for visible-light-responsive photocatalysis | Peng, Yen-Ping; Lo, Shang-Lien; Ou, Fisin-Hung; SHANG-LIEN LO | Journal of Hazardous Materials | | | |
2020 | Microwave-Assisted synthesis of titanate nanotubes loaded with platinum with enhanced selectivity for photocatalytic h 2 evolution from methanol | Chen H.-Y; Lo S.-L; Chang H.-L.; SHANG-LIEN LO | Nano | | | |
2015 | Microwave-enhanced persulfate oxidation to treat mature landfill leachate | Chou, Y.-C.; Lo, S.-L.; Kuo, J.; Yeh, C.-J.; SHANG-LIEN LO | Journal of Hazardous Materials | | | |
2010 | Microwave-hydrothermal decomposition of perfluorooctanoic acid in water by iron-activated persulfate oxidation | Lee, Yu-Chi; Lo, Shang-Lien; Chiueh, Pei-Te ; Liou, Yau-Hsuan; SHANG-LIEN LO | Water Research | 183 | 160 | |
2007 | Microwave-Induced Titanate Nanotubes and the Corresponding Behaviour after Thermal Treatment | Ou, Hsin Hung; Lo, Shang Lien ; Liou, Ya Hsuan | Nanotechnology | 35 | 35 | |
2012 | Microwave-induced torrefaction of rice husk and sugarcane residues | Wang, M.J.; Huang, Y.F.; Chiueh, P.T.; Kuan, W.H.; PEI-TE CHIUEH ; SHANG-LIEN LO | Energy | 102 | 89 | |
2021 | Mineralization of perfluorooctanoic acid by combined aerated electrocoagulation and Modified peroxi-coagulation methods | Singh S; Lo S.-L; Srivastava V.C; Qiao Q; Sharma P.; SHANG-LIEN LO | Journal of the Taiwan Institute of Chemical Engineers | | | |
1994 | Mobilization of Heavy Metals from Sediments by NTA | 駱尚廉 ; Huang, L. J.; 林正芳 ; Lo, Shang-Lien ; Lin, Cheng-Fang | Toxicological and Environmental Chemistry | 1 | | |
2004 | Modeling and electrokinetic evidences on the processes of the Al(III) sorption continuum in SiO2(s) suspension | Kuan, Wen Hui; Lo, Shang Lien ; Wang, Ming Kuang | Journal of Colloid and Interface Science | | | |
2004 | Modeling and electrokinetic evidences on the processes of the Al(III) sorption continuum in SiO<inf>2(s)</inf> suspension | Kuan, W.H.; Lo, S.L.; Wang, M.K.; SHANG-LIEN LO | Journal of Colloid and Interface Science | | | |
2003 | Modeling Competitive Adsorption of Chromate, Sulfate, and Selenate on g-Al2O3: Comparison between the Triple-Layer Model and a Freundlich-Type Multi-Component Isotherm | Wu, Chung-Hsin; Lin, Cheng-Fang ; Lo, Shang-Lien | Journal of the Chinese Institute of Environmental Engineering | | | |
2001 | Modeling Competitive Adsorption of Molybdate, Sulfate, and Selenate on γ-Al2O3 by the Triple-Layer Model | Wu, Chung-Hsin; Lo, Shang-Lien ; Lin, Cheng-Fang ; Kuo, Chao-Yin | Journal of Colloid and Interface Science | | | |
2002 | Modeling competitive adsorption of molybdate, sulfate, selenate, and selenite using a Freundlich-type multi-component isotherm | Wu, Chung-Hsin; Kuo, Chao-Yin; Lin, Cheng-Fang ; Lo, Shang-Lien | Chemosphere | 93 | 83 | |
1993 | Modeling of Gas Phase Advective Transport of VOC in the Unsaturated Zone | 駱尚廉 ; Lee, Y. M.; Lo, Shang-Lien | The 4th Symposium on Soil Pollution Prevention and Remediation | | | |
1995 | Modeling of inducing gas-phase advective transport of VOC in the unsaturated zone | Lo, S.-L.; Lee, Y.-M.; SHANG-LIEN LO | Journal of the Chinese Institute of Engineers, Series A/Chung-kuo Kung Ch'eng Hsuch K'an | | | |
2017 | Morphology-controlled green approach for synthesizing the hierarchical self-assembled 3D porous ZnO superstructure with excellent catalytic activity | Singh, S.; Srivastava, V.C.; Lo, S.L.; Mandal, T.K.; Naresh, G.; SHANG-LIEN LO | Microporous and Mesoporous Materials | | | |