SCI 期刊論文 SCI Paper
Publication List (updated to 2022.02)(*Corresponding author)Journal ArticleGoogle Scholar: https://scholar.google.com.tw/citations?user YoNUQp0AAAAJ&hl zh-TWORCID: https://orcid.org/0000-0003-2350-3287Research ID: Y-1342-2019A. SCI 期刊論文 SCI paper1.Hsueh-Yu Chen, Guan-Cheng Chen, Kuo-Wei Liao, Wen-Hui Wei, Hsin-Chih Huang*, Chen-Hao Wang*,Island-Type Hybrid Catalysts Applied for Anion Exchange Membrane Water Electrolysis, Catalysts, 12(2022) 102. (SCI & EI, Impact Factor: 4.146, Rank: 67/162, Category: CHEMISTRY, PHYSICAL, JCR:2020)2.Yi-Fan Huang, Kuan-Wei Liao, Fariz Rifqi Zul Fahmi, Varad A. Modak, Shang-Hsuan Tsai, Shang-WeiKe, Chen-Hao Wang, Li-Chyong Chen*, Kuei-Hsien Chen*, Thickness-Dependent Photocatalysis ofUltra-Thin MoS2 Film for Visible-Light-Driven CO2 Reduction, Catalysts, 11 (2021) 1295. (SCI & EI,Impact Factor: 4.146, Rank: 67/162, Category: CHEMISTRY, PHYSICAL, JCR: 2020)3.Hsueh-Yu Chen, Yu-Chung Chang, Jyh-Fu Lee, Chih-Wen Pao, Hsin-Chih Huang*, Chen-Hao Wang*,Operando Identification of Hydrangea-like and Amorphous Cobalt Oxyhydroxide Supported by ThinLayer Copper for Oxygen Evolution Reaction, ACS Sustainable Chemistry & Engineering, 9 (2021)12300-12310. (SCI & EI, Impact Factor: 8.198, Rank: 14/143, Category: ENGINEERING, CHEMICAL,JCR: 2020)4.Yusuf Pradesar, Hsueh-Yu Chen, Kai-Chin Wang, Afandi Yusuf, Hsin-Chih Huang*, Chen-Hao Wang*,High Activity of Platinum-Cobalt Supported by Natto-like N‑Doped Carbon Sphere as Durable Catalystfor Oxygen Reduction Reaction, Energy & Fuels, 35 (2021) 15074-15083. (SCI & EI, Impact Factor:3.605, Rank: 57/143, Category: ENGINEERING, CHEMICAL, JCR: 2020)5.Yun-Ting Ou, Daniel Manaye Kabtamu*, Anteneh Wodaje Bayeh, Hung-Hsien Ku, Yu-Lin Kuo, YaoMing Wang, Ning-Yih Hsu, Tai-Chin Chiang, Hsin-Chih Huang, Chen-Hao Wang*, Metal-OrganicFrameworks Derived Catalyst for High-Performance Vanadium Redox Flow Batteries, Catalysts, 11(2021) 1188. (SCI & EI, Impact Factor: 4.146, Rank: 67/162, Category: CHEMISTRY, PHYSICAL, JCR:2020)6.Anteneh Wodaje Bayeh, Yang-Yi Ou, Yun-Ting Ou, Yu-Chung Chang, Hsueh-Yu Chen, Kai-Chin Wang,Yao-Ming Wang, Hsin-Chih Huang, Tai-Chin Chiang, Daniel Manaye Kabtamu*, Chen-Hao Wang*,MoO2–Graphene Nanocomposite as an Electrocatalyst for High-Performance Vanadium Redox Flow1
Battery, Journal of Energy Storage, 40 (2021) 102795. (SCI & EI, Impact Factor: 6.583, Rank: 28/114,Category: ENERGY & FUEL, JCR: 2020)7.Hsiang-Ting Lien, Yu-Chung Chang, Chih-Yang Huang, Hsin-Cheng Hsu, Sun-Tang Chang, Deniz P.Wong, Chia-Hsin Wang, Chen-Hao Wang, Kuei-Hsien Chen*, Li-Chyong Chen*, Solar to hydrocarbonproduction using metal-free water-soluble bulk heterojunction of conducting polymer nanoparticle andgraphene oxide, Journal of Chemical Physics, 154 (2021) 164707. (SCI & EI, Impact Factor: 3.488,Rank: 9/37, Category: PHYSICS, ATOMIC, MOLECULAR & CHEMICAL, JCR: 2020)8.Anteneh Wodaje Bayeh, Daniel Manaye Kabtamu*, Yu-Chung Chang, Tadele Hunde Wondimu, HsinChih Huang, Chen-Hao Wang*, Carbon and Metal-Based Catalysts for Vanadium Redox Flow Batteries:A Perspective and Review of Recent Progress, Sustainable Energy & Fuels 5 (2021) 1668-1707. (SCI &EI, Impact Factor: 6.367, Rank: 30/114, Category: MATERIALS SCIENCE, MULTIDISCIPLINARY,JCR: 2020)9.He-Yun Du, Yi-Fan Huang, Deniz Wong, Mao-Feng Tseng, Yi-Hsin Lee, Chen-Hao Wang, Cheng-LanLin, Germar Hoffmann*, Kuei-Hsien Chen*, Li-Chyong Chen*, Nanoscale Redox Mapping at The Mos2Liquid Interface, Nature Communications, 12 (2021) 1321. (SCI & EI, Impact Factor: 14.919, Rank:4/73, Category: MULTIDISCIPLINARY, SCIENCES, JCR: 2020)10. Yu-Ching Weng*, Cheng-Jen Ho, Hui-Hsuan Chiao, Chen-Hao Wang, Pt3Ni/C and Pt3Co/C Cathodes asElectrocatalysts for Use in Oxygen Sensors and Proton Exchange Membrane Fuel Cells, Zeitschrift fürNaturforschung B, (2020) 000010151520200116. (SCI & EI, Impact Factor: 1.047, Rank: 48/57,Category: CHEMISTRY, ORGANIC, JCR: 2020)11. Anteneh Wodaje Bayeh, Guan-Yi Lin, Yu-Chung Chang, Daniel Manaye Kabtamu, Guan-Cheng Chen,Hsueh-Yu Chen, Kai-Chin Wang, Yao-Ming Wang, Tai-Chin Chiang, Hsin-Chih Huang*, Chen-HaoWang*, Oxygen-Vacancy-Rich Cubic CeO2 Nanowires as Catalysts for Vanadium Redox Flow Batteries,ACS Sustainable Chemistry & Engineering, 8 (2020) 16757-1676. SCI & EI, Impact Factor: 8.198,Rank: 14/143, Category: ENGINEERING, CHEMICAL, JCR: 2020) Cover Paper12. Hsiang-Ting Lien, Sun-Tang Chang, Po-Tuan Chen, Deniz P. Wong, Yu-Chung Chang, Ying-Rei Lu,Chung-Li Dong, Chen-Hao Wang, Kuei-Hsien Chen*, Li-Chyong Chen*, Probing The Active Site inSingle-Atom Oxygen Reduction Catalysts via Operando X-Ray and Electrochemical Spectroscopy,Nature Communications, 11 (2020) 4233. (SCI & EI, Impact Factor: 14.919, Rank: 4/73, Category:MULTIDISCIPLINARY, SCIENCES, JCR: 2020)13. Ting-Ruei Liu, Yu-Chung Chang, Anteneh Wodaje Bayeh, Kai-Chin Wang, Hsueh-Yu Chen, Yao-MingWang, Tai-Chin Chiang, Mau-Tsu Tang, Shao-Chin Tseng, Hsin-Chih Huang*, Chen-Hao Wang*,2
Synergistic Effects of Niobium Oxide–Niobium Carbide–Reduced Graphene Oxide Modified Electrode forVanadium Redox Flow Battery, Journal of Power Sources, 473 (2020) 228590. (SCI & EI, Impact Factor:9.127, Rank: 13/114, Category: ENERGY & FUELS, JCR: 2020)14. Cheng-Hao Wu, Kai-Chin Wang, Sun-Tang Chang, Yu-Chung Chang, Hsueh-Yu Chen, Ichiro Yamanaka,Tai-Chin Chiang, Hsin-Chih Huang*, Chen-Hao Wang*, High Performance of Metal-OrganicFramework-derived Catalyst Supported by Tellurium Nanowire for Oxygen Reduction Reaction,Renewable Energy, 158 (2020) 324-331. (SCI & EI, Impact Factor: 6.274, Rank: 16/114, Category:ENERGY & FUELS, JCR: 2020)15. Sun-Tang Chang, Huan-Ping Jhong, Yu-Chung Chang, Chia-Chi Liu, Tai-Chin Chiang, Hsin-ChihHuang*, Chen-Hao Wang*, Microwave-Assisted Pyrolysis of Pachira Aquatica Leaves as a Catalyst forThe Oxygen Reduction Reaction, RSC Advances, 10 (2020) 11543-11550. (SCI & EI, Impact Factor:3.361, Rank: 81/179, Category: CHEMISTRY, MULTIDISCIPLINARY, JCR: 2020)16. Wen-Fei Huang, Sun-Tang Chang, Hsin-Chih Huang, Chen-Hao Wang*, Li-Chyong Chen, Kuei-HsienChen, Ming-Chang Lin*, On the Reduction of O2 on Cathode Surfaces of Co-corrin and Co-porphyrin: AComputational and Experimental Study on Their Relative Efficiencies in H2O/H2O2 Formation, Journalof Physical Chemistry C, 124 (2020) 4652-4659. (SCI & EI, Impact Factor: 4.126, Rank: 124/335,Category: MATERIALS SCIENCE, MULTIDISCIPLINARY, JCR: 2020)17. Vuri Ayu Setyowati*, Lukman Noerochim, Diah Susanti, Yusuf Pradesar, Hsin-Chih Huang, Sun-TangChang, Kai-Chin Wang, Chen-Hao Wang, High Oxygen Reduction Reaction Activity On Various IronLoading of Fe-PANI/C Catalyst For PEM Fuel Cell, Ionics, 26 (2020) 813-822. (SCI & EI, ImpactFactor: 2.817, Rank: 36/69, Category: PHYSICS, CONDENSED MATTER, JCR: 2020)18. Jung‐Chen Wu, Wei‐Mon Yan, Wei‐Hung Chiang, Sangeetha Thangavel, Chen‐Hao Wang*, Chin‐TsanWang*, Innovative Multi‐Processed N‐Doped Carbon and Fe3O4 Cathode for Enhanced Bioelectro‐Fenton Microbial Fuel Cell Performance, International Journal of Energy Research, 43 (2019) 75947603. (SCI & EI, Impact Factor: 5.164, Rank: 1/34, Category: NUCLEAR SCIENCE & TECHNOLOGY,JCR: 2020)19. Tadele Hunde Wondimu, Guan-Cheng Chen, Daniel Manaye Kabtamu, Hsueh-Yu Chen, Anteneh WodajeBayeh, Hsin-Chih Huang*, Chen-Hao Wang*, Selenium Vacancy and Phosphorus-Doping-Induced PhaseTransition Engineering of Cobalt Diselenide as Bi-functional Catalyst for Water Electrolysis,International Journal of Hydrogen Energy, 44 (2019) 28566-28577. (SCI & EI, Impact Factor: 5.816,Rank: 37/114, Category: ENERGY & FUELS, JCR: 2020)20. Huan-Ping Jhong, Sun-Tang Chang, Hsin-Chih Huang, Kai-Chin Wang, Jyh-Fu Lee, Mikito Yasuzawa,Chen-Hao Wang*, Enhanced Activity of Selenocyanate-containing Transition Metal Chalcogenide3
Supported by Nitrogen-doped Carbon Material for Oxygen Reduction Reaction, Catalysis Science &Technology, 13 (2019) 3426-3436. (SCI & EI, Impact Factor: 6.119, Rank: 44/162, Category:CHEMISTRY, PHYSICAL, JCR: 2020)21. Kai-Chin Wang, Hsin-Chih Huang, Sun-Tang Chang, Cheng-Hao Wu, Ichiro Yamanaka, Jyh-Fu Lee,Chen-Hao Wang*, Hybrid Porous Catalysts Derived from Metal-Organic Framework for OxygenReduction Reaction in an Anion Exchange Membrane Fuel Cell, ACS Sustainable Chemistry &Engineering, 7 (2019) 9143-9152. SCI & EI, Impact Factor: 8.198, Rank: 14/143, Category:ENGINEERING, CHEMICAL, JCR: 2020)22. Anteneh Wodaje Bayeh, Daniel Manaye Kabtamu, Yu-Chung Chang, Guan-Cheng Chen, Hsueh-Yu Chen,Ting-Ruei Liu, Tadele Hunde Wondimu, Kai-Chin Wang, and Chen-Hao Wang*, Hydrogen-TreatedDefect-Rich W18O49 Nanowires Modified Graphite Felt as High-Performance Electrode for VanadiumRedox Flow Battery, ACS Applied Energy Materials, 2 (2019) 2541-2551. (SCI & EI, Impact Factor:6.024, Rank: 34/114, Category: ENERGY & FUELS, CHEMICAL, JCR: 2020)23. Guan-Cheng Chen, Tadele Hunde Wondimu, Hsin-Chih Huang, Kai-Chin Wang, Chen-Hao Wang*,Microwave-Assisted Facile Synthesis of Cobalt–Iron Oxide Nanocomposites for Oxygen ProductionUsing Alkaline Anion Exchange Membrane Water Electrolysis, International Journal of HydrogenEnergy, 44 (2019) 10174-10181. (SCI & EI, Impact Factor: 5.816, Rank: 37/114, Category: ENERGY &FUELS, JCR: 2020)24. Hsin-Chih Huang, Cheng-Yi Su, Kai-Chin Wang, Hsueh-Yu Chen, Yu-Chung Chang, Yen-Lin Chen,Kevin C.-W. Wu,* Chen-Hao Wang*, Nanostructured Cementite/Ferrous Sulfide Encapsulated Carbonwith Heteroatoms for Oxygen Reduction in Alkaline Environment, ACS Sustainable Chemistry &Engineering, 7 (2019) 3185-3194. SCI & EI, Impact Factor: 8.198, Rank: 14/143, Category:ENGINEERING, CHEMICAL, JCR: 2020)25. Chin-Tsan Wang*, Thangavel Sangeetha, Wei-Mon Yan, Wen-Tong Chong, Lip-Huat Saw, Feng Zhao,Chung-Ta Chang, Chen-Hao Wang*, Application of Interface Material and Effects of Oxygen Gradienton The Performance of Single-Chamber Sediment Microbial Fuel Cells (SSMFCs), Journal ofEnvironmental Sciences, 75 (2019) 163-168. (SCI & EI, Impact Factor: 5.565, Rank: 55/274, Category:ENVIRONMENTAL SCIENCES, JCR: 2020)26. Tadele Hunde Wondimu, Guan-Cheng Chen, Hsueh-Yu Chen, Daniel Manaye Kabtamu, Anteneh WodajeBayeh, Kai-Chin Wang, Hsin-Chih Huang, Chen-Hao Wang*, High Catalytic Activity of Oxygen-vacancyrich Tungsten Oxide Nanowires Supported by Nitrogen-doped Reduced Graphene Oxides for HydrogenEvolution Reaction, Journal of Materials Chemistry A, 6 (2018) 19767-19774. (SCI & EI, Impact4
Factor: 12.732, Rank: 8/114, Category: ENERGY & FUELS, JCR: 2020)27. Chin‐Tsan Wang*, Thangavel Sangeetha, Feng Zhao, Akhil Garg, Chung‐Ta Chang, Chen‐Hao Wang*,Sludge Selection on the Performance of Sediment Microbial Fuel Cells, International Journal of EnergyResearch, 42 (2018), 4250-4255. (SCI & EI, Impact Factor: 5.164, Rank: 1/34, Category: NUCLEARSCIENCE & TECHNOLOGY, JCR: 2020)28. Daniel Manaye Kabtamu, Anteneh Wodaje Bayeh, Tai-Chin Chiang, Yu-Chung Chang, Guan-Yi Lin,Tadele Hunde Wondimu, Shuenn-Kung Su and Chen-Hao Wang*, TiNb2O7 Nanoparticle-DecoratedGraphite Felt as a High-Performance Electrode for Vanadium Redox Flow Batteries, Applied SurfaceScience, 462 (2018) 73-80. (SCI & EI, Impact Factor: 6.707, Rank: 1/21, Category: MATERIALSSCIENCE, COATING & FILMS, JCR: 2020)29. Anteneh Wodaje Bayeh, Daniel Manaye Kabtamu, Yu-Chung Chang, Guan-Cheng Chen, Hsueh-Yu Chen,Guan-Yi Lin, Ting-Ruei Liu, Tadele Hunde Wondimu, Kai-Chin Wang, Chen-Hao Wang*, SynergisticEffects of a TiNb2O7-reduced Graphene Oxide Nanocomposite Electrocatalyst for High-performance Allvanadium Redox Flow Battery, Journal of Materials Chemistry A, 6 (2018) 13908-13917. (SCI & EI,Impact Factor: 12.732, Rank: 8/114, Category: ENERGY & FUELS, JCR: 2020)30. Jung-Chen Wu, Wei-Mon Yan, Chin-Tsan Wang*, Chen-Hao Wang*, Yi-Hao Pai, Kai-Chin Wang, YanMing Chen, Tzu-Hsuan Lan, Sangeetha Thangavel, Treatment of Oily Wastewater by the Optimization ofFe2O3 Calcination Temperatures in Innovative Bio-Electron-Fenton Microbial Fuel Cells, Energies, 11(2018) 565. (SCI & EI, Impact Factor: 3.004, Rank: 70/114, Category: ENERGY & FUELS, JCR: 2020)31. Anteneh Wodaje Bayeh, Daniel Manaye Kabtamu, Yu-Chung Chang, Guan-Cheng Chen, Hsueh-Yu Chen,Guan-Yi Lin, Ting-Ruei Liu, Tadele Hunde Wondimu, Kai-Chin Wang, Chen-Hao Wang*, Ta2O5Nanoparticle-Modified Graphite Felt as a High-Performance Electrode for a Vanadium Redox FlowBattery, ACS Sustainable Chemistry & Engineering, 6 (2018) 3019–3028. SCI & EI, Impact Factor:8.198, Rank: 14/143, Category: ENGINEERING, CHEMICAL, JCR: 2020)32. Tadele Hunde Wondimu, Guan-Cheng Chen, Daniel Manaye Kabtamu, Hsueh-Yu Chen, Anteneh WodajeBayeh, Hsin-Chih Huang, Chen Hao Wang*, Highly Efficient and Durable Phosphine Reduced IronDoped Tungsten Oxide/Reduced Graphene Oxide Nanocomposites for The Hydrogen Evolution Reaction,International Journal of Hydrogen Energy, 43 (2018) 6481–6490. (SCI & EI, Impact Factor: 5.816,Rank: 37/114, Category: ENERGY & FUELS, JCR: 2018)33. Daniel Manaye Kabtamu, Guan-Yi Lin, Yu-Chung Chang, Hsueh-Yu Chen, Hsin-Chih Huang, Ning-YihHsu, Yi-Sin Chou, Hwa-Jou Wei, Chen-Hao Wang*, The Effect of Adding Bi3 on The Performance of aNewly Developed Iron-Copper Redox Flow Battery, RSC Advances, 8 (2018) 8537-8543. (SCI & EI,5
Impact Factor: 3.361, Rank: 81/179, Category: CHEMISTRY, MULTIDISCIPLINARY, JCR: 2020)34. Daniel Manaye Kabtamu, Yu-Chung Chang, Guan-Yi Lin, Anteneh Wodaje Bayeh, Chien-Yu Chen,Tadele Hunde Wondimu, Chen-Hao Wang*, Three-Dimensional Annealed WO3 Nanowire/GrapheneFoam as an Electrocatalytic Material for an All Vanadium Redox Flow Battery, Sustainable Energy &Fuels 1, (2017) 2091-2100. Inside back cover page (SCI & EI, Impact Factor: 6.367, Rank: 82/335,Category: MATERIALS SCIENCE, MULTIDISCIPLINARY, JCR: 2020)35. Hsin-Chih Huang, Yu-Chuan Lin, Sun-Tang Chang, Chia-Chi Liu, Kai-Chin Wang, Huan-Ping Jhong,Jyh-Fu Lee, Chen-Hao Wang*, Effect of a Sulfur and Nitrogen Dual-Doped Fe-N-S Electrocatalyst forThe Oxygen Reduction Reaction, Journal of Materials Chemistry A, 5 (2017) 19790-19799. (SCI & EI,Impact Factor: 12.732, Rank: 8/114, Category: ENERGY & FUELS, JCR: 2020)36. Mohammad Qorbani, Tsu-chin Chou, Yi-Hsin Lee, Satyanarayana Samireddi, Naimeh Naseri, AbhijitGanguly, Ali Esfandiar, Chen-Hao Wang, Li-Chyong Chen, Kuei-Hsien Chen, Alireza Z. Moshfegh,Multi-Porous Co3O4 Nanoflakes @ Sponge-Like Few-Layer Partially Reduced Graphene Oxide Hybrids:Towards Highly Stable Asymmetric Supercapacitors, Journal of Materials Chemistry A, 5 (2017)12569-12577. (SCI & EI, Impact Factor: 12.732, Rank: 8/114, Category: ENERGY & FUELS, JCR: 2020)37. Kai-Chin Wang, Hsin-Chih Huang, Chen-Hao Wang*, Synthesis of Pd@Pt3Co/C Core-Shell Structure asCatalyst for Oxygen Reduction Reaction in Proton Exchange Membrane Fuel Cell, InternationalJournal of Hydrogen Energy, 42 (2017) 11771-11778. (SCI & EI, Impact Factor: 5.816, Rank: 37/114,Category: ENERGY & FUELS, JCR: 2020)38. Hsin-Chih Huang, Sun-Tang Chang, Hsin-Cheng Hsu, He-Yun Du, Chen-Hao Wang*, Li-Chyong Chen*,Kuei-Hsien Chen*, Pyrolysis of Iron–Vitamin B9 as a Potential Non-precious Metal Electrocatalyst forOxygen Reduction Reaction, ACS Sustainable Chemistry & Engineering, 5 (2017) 2897-2905. SCI &EI, Impact Factor: 8.198, Rank: 14/143, Category: ENGINEERING, CHEMICAL, JCR: 2020)39. Daniel Manaye Kabtamu, Jian-Yu Chen, Yu-Chung Chang, Chen-Hao Wang*, Water-Activated GraphiteFelt as A High-Performance Electrode for Vanadium Redox Flow Batteries, Journal of Power Sources,341 (2017) 270-279. (SCI & EI, Impact Factor: 9.127, Rank: 13/114, Category: ENERGY & FUELS,JCR: 2020)40. Yu-Chung Chang, Jian-Yu Chen, Daniel Manaye Kabtamu, Guan-Yi Lin, Ning-Yih Hsu, Yi-Sin Chou,Hwa-Jou Wei, Chen-Hao Wang*, High Efficiency of CO2-Activated Graphite Felt as Electrode forVanadium Redox Flow Battery Application, Journal of Power Sources, 364 (2017) 1-8. (SCI & EI,Impact Factor: 9.127, Rank: 13/114, Category: ENERGY & FUELS, JCR: 2020)41. Yu-Chung Chang, Yu-Chen Shih, Jian-Yu Chen, Guan-Yi Lin, Ning-Yih Hsu, Yi-Sin Chou, Chen-Hao6
Wang*, High Efficiency of Bamboo-like Carbon Nanotube on Functionalized Graphite Felt as Electrodein Vanadium Redox Flow Battery, RSC Advances, 6 (2016) 102068-102075. (SCI & EI, Impact Factor:3.361, Rank: 81/179, Category: CHEMISTRY, MULTIDISCIPLINARY, JCR: 2020)42. Daniel Manaye Kabtamu, Jian-Yu Chen, Yu-Chung Chang, Chen-Hao Wang*, Electrocatalytic Activity ofNb-doped Hexagonal WO3 Nanowires-Modified Graphite Felt as a Positive Electrode for VanadiumRedox Flow Battery, Journal of Materials Chemistry A, 4 (2016) 11472-11480. (SCI & EI, ImpactFactor: 12.732, Rank: 8/114, Category: ENERGY & FUELS, JCR: 2020)43. Vuri Ayu Setyowati, Hsin-Chih Huang, Chia-Chi Liu, Chen-Hao Wang*, Effect of Iron Precursors on theStructure and Oxygen Reduction Activity of Iron–Nitrogen–Carbon Catalysts, Electrochimica Acta, 211(2016) 933-940. (SCI & EI, Impact Factor: 6.901, Rank: 8/29, Category: ELECTROCHEMISTRY, JCR:2020)44. Chen-Hao Wang*, Wei-Chen Wen, Hsin-Cheng Hsu, Bing-Yuan Yao, High-capacitance KOH-activatedNitrogen-containing Porous Carbon Material From Waste Coffee Grounds in Supercapacitor, AdvancedPowder Technology, 27 (2016) 1387-1395. (SCI & EI, Impact Factor: 4.833, Rank: 34/143, Category:ENGINEERING, CHEMICAL, JCR: 2020)45. Dibyendu Mondal, Mukesh Sharma, Chen-Hao Wang, Yu-Chuan Lin, Hsin-Chih Huang, Arka Saha,Sanna Kotrappanavar Nataraj, Kamalesh Prasad, Deep Eutectic Solvent Promoted One Step SustainableConversion of Fresh Seaweed Biomass to Functionalized Graphene as Potential Electrocatalyst, GreenChemistry, 18 (2016) 2819-2826. (SCI & EI, Impact Factor: 10.182, Rank: 2/44, Category: GREEN &SUSTAINABLE SCIENCE & TECHNOLOGY, JCR: 2020)46. He-Yun Du, Chen-Shuan Yang, Hsin-Cheng Hsu, Hsin-Chih Huang, Sun-Tang Chang, Chen-Hao Wang,Jyh-Chien Chen, Kuei-Hsien Chen, Li-Chyong Chen, Pulsed Electrochemical Deposition of Pt Nps onPolybenzimidazole-CNT Hybrid Electrode for High-Temperature Proton Exchange Membrane Fuel Cells,International Journal of Hydrogen Energy, 40 (2015) 14398-14404. (SCI & EI, Impact Factor: 5.816,Rank: 37/114, Category: ENERGY & FUELS, JCR: 2020)47. Hsin-Cheng Hsu, Chen-Hao Wang*, Yu-Chung Chang, Jin-Hao Hu, Bing-Yuan Yao, Chun-Yao Lin,Graphene Oxides and Carbon Nanotubes Embedded in Polyacrylonitrile-Based Carbon Nanofibers Usedas Electrodes for Supercapacitor, Journal of Physics and Chemistry of Solids, 85 (2015) 62–68. (SCI& EI, Impact Factor: 3.995, Rank: 68/179, Category: CHEMISTRY, MULTIDISCIPLINARY, JCR: 2020)48. Sanna Kotrappanvar Nataraj, Chen-Hao Wang, Hsin-Chih Huang, He-Yun Du, Li-Chyong Chen, KueiHsien Chen, Functionalizing Biomaterials to Be an Efficient Proton-Exchange Membrane and MethanolBarrier for DMFCs, ACS Sustainable Chemistry & Engineering, 3 (2015) 302-308. SCI & EI, Impact7
Factor: 8.198, Rank: 14/143, Category: ENGINEERING, CHEMICAL, JCR: 2020)49. Chen-Hao Wang*, Chih-Wei Yang, Yu-Chuan Lin, Sun-Tang Chang, Shery L. Y. Chang, Cobalt-iron(ii,iii)Oxide Hybrid Catalysis With Enhanced Catalytic Activities for Oxygen Reduction in Anion ExchangeMembrane Fuel Cell, Journal of Power Sources, 277 (2015) 147-154. (SCI & EI, Impact Factor: 9.127,Rank: 13/114, Category: ENERGY & FUELS, JCR: 2020)50. Diah Susanti*, A. A. Gede Pradnyana Diputra, Lucky Tananta, Hariyati Purwaningsih, George EndriKusuma, Chen-Hao Wang, Shao-Ju Shih, Ying-Sheng Huang, WO3 Nanomaterials Synthesized via a SolGel Method and Calcination for Use as a CO Gas Sensor, Frontiers of Chemical Science andEngineering, 8 (2014) 179-187. (SCI & EI, Impact Factor: 4.204, Rank: 43/143, Category:ENGINEERING, CHEMICAL, JCR: 2020)51. Indrajit Shown, Hsin-Cheng Hsu, Yu-Chung Chang, Chang-Hui Lin, Pradip Kumar Roy, Abhijit Ganguly,Chen-Hao Wang, Jan-Kai Chang, Chih-I Wu, Li-Chyong Chen, Kuei-Hsien Chen*, Highly EfficientVisible Light Photocatalytic Reduction of CO2 to Hydrocarbon Fuels by Cu-Nanoparticle DecoratedGraphene Oxide, Nano Letters, 14 (2014) 6097-6103. (SCI & EI, Impact Factor: 11.189, Rank: 15/160,Category: PHYSICAL, APPLIED, JCR: 2020)52. Hsien-Tang Chiu*, Tanapon Sukachonmakul, Chen-Hao Wang, Karnthidaporn Wattanakul, Ming-Tai Guo,Yu-Hsiang Wang, Fabrication and characterization of silicon-based ceramic/aluminum nitride asthermally conductive hybrid filler in silicone rubber composite, Materials Chemistry and Physics, 147(2014) 11-16. (SCI & EI, Impact Factor: 4.094, Rank: 126/335, Category: MATERIALS SCIENCE,MULTIDISCIPLINARY, JCR: 2020)53. Hsien-Tang Chiu*, Tanapon Sukachonmakul, Chen-Hao Wang, Karnthidaporn Wattanakul, Ming-Tai Guo,Yu-Hsiang Wang, Effect of pyrolysis atmospheres on the morphology of polymer-derived siliconoxynitrocarbide ceramic films coated aluminum nitride surface and the thermal conductivity of siliconerubber composites, Applied Surface Science, 292 (2014) 319-327. (SCI & EI, Impact Factor: 6.707,Rank: 1/21, Category: MATERIALS SCIENCE, COATINGS & FILMS, JCR: 2020)54. He-Yun Du, Chen-Hao Wang*, Chen-Shuan Yang, Hsin-Cheng Hsu, Sun-Tang Chang, Hsin-Chih-Huang,Shiau-Wu Lai, Jyh-Chien Chen, T. Leon Yu, Li-Chyong Chen, Kuei-Hsien Chen*, A High PerformancePolybenzimidazole-CNT Hybrid Electrode for High-Temperature Proton Exchange Membrane Fuel Cells,Journal of Materials Chemistry A, 2 (2014) 7015-7019. (SCI & EI, Impact Factor: 12.732, Rank: 8/114,Category: ENERGY & FUELS, JCR: 2020)55. Chen-Hao Wang*, Hsin-Chih Huang, Sun-Tang Chang, Yu-Chuan Lin, and Mei-Fang Huang, Pyrolysisof Melamine-treated Vitamin B12 as Non-Precious Metal Catalyst for Oxygen Reduction Reaction, RSC8
Advances, 4 (2014) 4207-4211. (SCI & EI, Impact Factor: 3.361, Rank: 81/179, Category: CHEMISTRY,MULTIDISCIPLINARY, JCR: 2020)56. Chen-Hao Wang*, Hsin-Cheng Hsu, and Kai-Ching Wang, Ir-Decorated Pd-Pt Core-Shell Catalysts forOxygen Reduction Reaction in Proton Exchange Membrane Fuel Cell, Journal of Colloid and InterfaceScience, 427 (2014) 91-97. (SCI & EI, Impact Factor: 8.128, Rank: 32/162, Category: CHEMISTRY,PHYSICAL, JCR: 2020)57. Chen-Hao Wang*, Hsin-Cheng Hsu, and Jin-Hao Hu, High-energy Asymmetric Supercapacitor Based onPetal-shaped MnO2 Nanosheet and Carbon Nanotube-embedded Polyacrylonitrile-based CarbonNanofiber Working at 2 V in Aqueous Neutral Electrolyte, Journal of Power Sources, 249 (2014) 1-8.(SCI & EI, Impact Factor: 9.127, Rank: 13/114, Category: ENERGY & FUELS, JCR: 2020)58. Sun-Tang Chang, Hsin-Chih Huang, Hsiao-Chien Wang, Hsin-Cheng Hsu, Jyh-Fu Lee, and Chen-HaoWang*, Effects of Structures of Pyrolyzed Corrin, Corrole and Porphyrin on Oxygen Reduction Reaction,International Journal of Hydrogen Energy, 39 (2014) 934-941. (SCI & EI, Impact Factor: 5.816, Rank:37/114, Category: ENERGY & FUELS, JCR: 2020)59. Jinn P. Chu*, Tz-Yah Liu, Chia-Lin Li, Chen-Hao Wang, Jason S.C. Jang, Ming-Jen Chen, Shih-HsinChang, Wen-Chien Huang, Fabrication and characterizations of thin film metallic glasses: Antibacterialproperty and durability study for medical application, Thin Solid Films, 561 (2014) 102-107. (SCI & EI,Impact Factor: 2.183, Rank: 94/160, Category: PHYSICAL, APPLIED, JCR: 2020)60. Hsin-Chih Huang, Chen-Hao Wang*, Indrajit Shown, Sun-Tang Chang, Hsin-Cheng Hsu, He-Yun Du, LiChyong Chen, Kuei-Hsien Chen*, High-Performance Pyrolyzed Iron Corrole as Potential Non-preciousMetal Catalyst for PEMFC, Journal of Materials Chemistry A, 1 (2013) 14692-14699. (SCI & EI,Impact Factor: 12.732, Rank: 8/114, Category: ENERGY & FUELS, JCR: 2020)61. Chen-Hao Wang*, Chin-Tsan Wang, Hsin-Chih Huang, Sun-Tang Chang, and Fan-Ying Liao, Highstability pyrolyzed vitamin B12 as a nonprecious metal catalyst of oxygen reduction reaction in microbialfuel cells, RSC Advances, 3 (2013) 15375-15381. (SCI & EI, Impact Factor: 3.361, Rank: 81/179,Category: CHEMISTRY, MULTIDISCIPLINARY, JCR: 2020)62. Hsin-Cheng Hsu, Indrajit Shown*, Hsieh-Yu Wei, Yu-Chung Chang, He-Yun Du, Yan-Gu Lin, Chi-AngTseng, Chen-Hao Wang*, Li-Chyong Chen, Yu-Chuan Lin, and Kuei-Hsien Chen*, Graphene oxide as apromising photocatalyst for CO2 to methanol conversion, Nanoscale, 5 (2013) 262-268. (SCI & EI,Impact Factor: 7.790, Rank: 23/160, Category: PHYSICAL, APPLIED, JCR: 2018)63. G.C. Chen, C.C. Hu, C.H. Wang, T.W. Lu, C.Y. Hsu*, Direct current reactive co-sputter deposition ofCrWN films to enhance cutting tool performance, International Journal of Refractory Metals and9
Hard Materials, 37 (2013) 82-89. (SCI & EI, Impact Factor: 3.871, Rank: 14/80, Category:METALLURGY & METALLURGICAL ENGINEERING, JCR: 2020)64. He-Yun Du, Chen-Hao Wang*, Hsin-Cheng Hsu, Sun-Tang Chang, Hsin-Chih Huang, Li-Chyong Chen,and Kuei-Hsien Chen*, Graphene Nanosheet-CNT Hybrid Nanostructure Electrode for a ProtonExchange Membrane Fuel Cell, International Journal of Hydrogen Energy, 37 (2012) 18989-18995.(SCI & EI, Impact Factor: 5.816, Rank: 37/114, Category: ENERGY & FUELS, JCR: 2020)65. Hsin-Chih Huang, Indrajit Shown, Sun-Tang Chang, Hsin-Cheng Hsu, He-Yun Du, Ming-Cheng Kuo,Ken-Tsung Wong, Sea-Fu Wang, Chen-Hao Wang*, Li-Chyong Chen, and Kuei-Hsien Chen*, PyrolyzedCobalt Corrole as Potential Non-Precious Catalyst for Fuel Cells, Advanced Functional Materials, 22(2012) 3500-3508. (SCI & EI, Impact Factor: 18.808, Rank: 8/160, Category: PHYSICAL, APPLIED, MULTIDISCIPLINARY, JCR: 2020)66. Chen-Hao Wang*, He-Yun Du, Hsin-Cheng Hsu, Sun-Tang Chang, Hsin-Chih Huang, Li-Chyong Chen,and Kuei-Hsien Chen, High stability of oxidation of methanol catalyzed by Pt supported by oxygenincorporated bamboo-shaped CNTs grown directly on carbon cloth, International Journal of HydrogenEnergy, 37 (2012) 10663-10670. (SCI & EI, Impact Factor: 5.816, Rank: 37/114, Category: ENERGY &FUELS, JCR: 2020)67. Sun-Tang Chang, Hsin-Cheng Hsu, Hsin-Chih Huang, Chen-Hao Wang*, He-Yun Du, Li-Chyong Chen,Jye-Fu Lee, and Kuei-Hsien Chen, Preparation of non-precious metal catalysts for PEMFC cathode frompyrolyzed Vitamin B12, International Journal of Hydrogen Energy, 37 (2012) 13755-13762. (SCI &EI, Impact Factor: 5.816, Rank: 37/114, Category: ENERGY & FUELS, JCR: 2020)68. Hsin-Cheng Hsu, Chen-Hao Wang*, S. K. Nataraj, Hsin-Chih Huang, He-Yun Du, Sun-Tang Chang, LiChyong Chen, and Kuei-Hsien Chen*, Stand-up Structure of Graphene-like Carbon Nanowalls on CNTDirectly Grown on Polyacrylonitrile-based Carbon Fiber Paper as Supercapacitor, Diamond andRelated Materials, 25 (2012) 176-179. (SCI & EI, Impact Factor: 3.315, Rank: 169/335, Category:MATERIALS SCIENCE, MULTIDISCIPLINARY, JCR: 2020)69. S. K. Nataraj, Chen-Hao Wang, Hsin-Chih Huang, Sea-Fu Wang, Ying-Chu Chen, Li-Chyong Chen, andKuei-Hsien Chen*, Highly Proton-Selective Biopolymer Layer-Coated Ion-Exchange Membrane forDirect Methanol Fuel Cells, ChemSusChem, 5 (2012) 392-395. (SCI & EI, Impact Factor: 8.928, Rank:4/44, Category: GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY, JCR: 2020)70. Sun-Tang Chang, Chen-Hao Wang*, He-Yun Du, Hsin-Cheng Hsu, Chih-Ming Kang, Chia-Chun Chen,Chi-Sheng Wu, Shi-Chern Yen, Wen-Fei Huang, Li-Chyong Chen*, M.C. Lin, and Kuei-Hsien Chen*,Vitalizing Fuel Cells with Vitamin: Pyrolyzed Vitamin B12 as Non-precious Catalyst for Enhanced Oxygen10
Reduction Reaction of Polymer Electrolyte Fuel Cell, Energy & Environmental Science, 5 (2012) 53055314. (SCI & EI, Impact Factor: 38.532, Rank: 1/274, Category: ENVIRONMENTAL SCIENCES, JCR:2020)71. Chen-Hao Wang*, Sun-Tang Chang, Hsin-Cheng Hsu, He-Yun Du, Jeffrey Chi-Sheng Wu, Li-ChyongChen, and Kuei-Hsien Chen*, Oxygen reducing activity of methanol-tolerant catalysts by hightemperature pyrolysis, Diamond and Related Materials, 20 (2011) 322-329. (SCI & EI, Impact Factor:3.315, Rank: 169/335, Category: MATERIALS SCIENCE, MULTIDISCIPLINARY, JCR: 2020)72. He-Yun Du, Chen-Hao Wang*, Hsin-Cheng Hsu, Sun-Tang Chang, Shi-Chern Yen, Li-Chyong Chen,Balasubramanian Viswanathan, and Kuei-Hsien Chen*, High performance of catalysts supported bydirectly grown PTFE-free micro-porous CNT layer in proton exchange membrane fuel cell, Journal ofMaterials Chemistry, 21 (2011) 2512-2516. (SCI & EI, Impact Factor: 6.626, Rank: 22/251, Category:MATERIALS SCIENCE, MULTIDISCIPLINARY, JCR: 2013)73. Chen-Hao Wang*, Hsin-Cheng Hsu, Sun-Tang Chang, He-Yun Du, Chin-Pei Chen, Jeffrey Chi-ShengWu, Han-Chang Shih, Li-Chyong Chen, and Kuei-Hsien Chen*, Platinum nanoparticles embedded inpyrolyzed nitrogen-containing cobalt complexes for high methanol-tolerant oxygen reduction activity,Journal of Materials Chemistry, 20 (2010) 7551-7557. (SCI & EI, Impact Factor: 6.626, Rank: 22/251,Category: MATERIALS SCIENCE, MULTIDISCIPLINARY, JCR: 2013)74. Chen-Hao Wang, Chien-Chu Chen, Hsin-Cheng Hsu, He-Yun Du, Chin-Pei Chen, Jeong-Yuan Hwang,Li-Chyong Chen, Han-Chang Shih, Jaroslav Stejskal, and Kuei-Hsien Chen*, Low methanol-permeablepolyaniline/Nafion composite membrane for direct methanol fuel cells, Journal of Power Sources, 190(2009) 279-284. (SCI & EI, Impact Factor: 9.127, Rank: 13/114, Category: ENERGY & FUELS, JCR:2020)75. Chin-Pei Chen, Abhijit Ganguly, Chen-Hao Wang, Chih-Wei Hsu, Surojit Chattopadhyay, Yu-Kuei Hsu,Ying-Chih Chang, Kuei-Hsien Chen*, and Li-Chyong Chen*, Label-Free Dual Sensing of DNA MoleculesUsing GaN Nanowires, Analytical Chemistry, 81 (2009) 36-42. (SCI & EI, Impact Factor: 6.986, Rank:8/83, Category: CHEMISTRY, ANALYTICAL, JCR: 2020)76. He-Yun Du, Chen-Hao Wang, Hsin-Cheng Hsu, Sun-Tang Chang, Uei-Shin Chen, Shi-Chern Yen, LiChyong Chen, Han-Chang Shih*, and Kuei-Hsien Chen*, Controlled platinum nanoparticles uniformlydispersed on nitrogen-doped carbon nanotubes for methanol oxidation, Diamond and Related Materials,17 (2008) 535-541. (SCI & EI, Impact Factor: 3.315, Rank: 169/335, Category: MATERIALS SCIENCE,MULTIDISCIPLINARY, JCR: 2020)77. Chen-Hao Wang*, He-Yun Du, Yu-Tai Tsai, Hsin-Cheng Hsu, Han-Chang Shih, Li-Chyong Chen, and11
Kuei-Hsien Chen, Directly grown carbon nanotubes applied in direct methanol fuel cell, Journal of theChinese Society of Mechanical Engineers, 28 (2007) 571-576. (SCI & EI, Impact Factor: 0.211, Rank:133/135, Category: ENGINEERING, MECHANICAL, JCR: 2020)78. Chen-Hao Wang, He-Yun Du, Yu-Tai Tsai, Chin-Pei Chen, Chao-Jung Huang, Li-Chyong Chen,
16. Wen-Fei Huang, Sun-Tang Chang, Hsin-Chih Huang, Chen-Hao Wang*, Li-Chyong Chen, Kuei-Hsien Chen, Ming-Chang Lin*, On the Reduction of O2 on Cathode Surfaces of Co-corrin and Co-porphyrin: A Computational and Experimental Study on Their Relative Efficiencies in H2O/H2O2 Formation, Journal of Physical Chemistry C, 124 (2020) 4652-4659.
Home » sci » SCI 260 Ground Bond Testers User Guide Contents hide 1 SCI 260 Ground Bond Testers 2 SAFETY CHECKLIST 3 TESTER SETUP 4 SETTING TEST MEMORIES 5 EDIT TEST PARAMETERS 6 TEST CONNECTION 7 CONDUCT A TEST 8 TEST RESULTS 9 Documents / Resources 9.1 Related Manuals / Resources SCI 260 Ground Bond Testers SAFETY CHECKLIST Survey the test .
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an analysis of Sci-Hub, from an ethical, technological, intellectual property and inequality point of view, is now a mature topic for debate. The objective of this paper is to describe the various facets of Sci-Hub in order to give as complete a picture as possible of this phenomenon and to assess its impact on university libraries. 2. Sci-Hub.
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Sensitive Compartmented Information (SCI) SCI Control Systems and Code Words Three SCI systems in published Register:-COMINT (SI)-GAMMA (-G) sub-control system of COMINT . SCI compromise contact G-2 Special Security Official (SSO) at 477-8451/8453. 3. SAPs compromise contact Louis Johnson at 477-8915. 4. After hours contact the G-3 Command .
