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紅色織物波浪
Research Publications

2024

Journal papers :

  1. C. C. Huang , S. R. Chung , and K. W. Wang. Enhancing Optical Properties Through Zinc Halide Precursor Selection: Interfacial Optimization of InZnP Quantum Dots. Journal of Materials Chemistry C. 2024. 1317-1324.

  2. D. Bhalothia , H. Y. Liu , S. H. Chen , Y. T. Tseng , W. B. Li c, S. Dai , K. W. Wang , and T. Y. Chen.The Sub-Nanometer In2O Clusters on Ag Nanoparticles with Highly Selective Electrochemical CO2 Reduction to Formate. Chemical Engineering Journal Volume 481. 2024, 148295.

2023

Journal papers :

  1. D. Bhalothia, S. S. Yang, C. Yan, A. Beniwal, Y. X. Chang, S. C. Wu, P. C. Chen, K. W. Wang, and T. Y. Chen. Surface Anchored Atomic Cobalt-Oxide Species Coupled with Oxygen Vacancies Boost the CO-Production Yield of Pd Nanoparticles. Sustainable Energy & Fuels 7 526-536.

  2. Y. Jia, H. S. Hsu, W. C. Huang, D. W. Lee, S. W. Lee, T. Y. Chen, L. Zhou, J. H. Wang*, K. W. Wang*, and S. Dai*. ​Probing the Roles of Indium Oxides on Copper Catalysts for Enhanced Selectivity during CO2-to-CO Electrochemical Reduction.  Nano Lett. 23(6) 2262–2268.

  3. D. Bhalothia, C. Yan, N. Hiraoka, H. Ishii, Y. F. Liao, P. C. Chen, K. W. Wang, J. P. Chou, S. Dai*, and T. Y. Chen*. Pt-Mediated Interface Engineering Boosts the Oxygen Reduction Reaction Performance of Ni Hydroxide-Supported Pd Nanoparticles. ACS Appl. Mater. Interfaces 15(12) 16177–16188.

  4. T. H. Huang, Y. Jiang, Y. H. Peng, Y. T. Tseng, C. Yan, P. C. Chien, K. Y. Wang, T. Y. Chen, J. H. Wang*, K. W. Wang*, and S. Dai*. Unique (100) Surface Configuration Enables Promising Oxygen Reduction Performance for Pt3Co Nanodendrite Catalysts. ACS Appl. Mater. Interfaces 15(14) 18217–18228

  5. Z.N.Fu,  L.Z.Wang, W.J.Zhang, X.Tang, W.X.Xia, J.X.Li, K.W.Wang, L.H.Zhou, X.H.Guo and S.Dai.Facile synthesis of single-atom electrocatalysts with tailored carbon architectures via a polyelectrolyte brush-templated-growth approach.             Journal of Materials Chemistry  A, 2023,11, 17533-17541

2022

Journal papers :

  1. A. Beniwal, D. Bhalothia, W. Yeh, M. Cheng, C. Yan, P. C. Chen, K. W. Wang, T. Y. Chen*. Co-Existence of Atomic Pt and CoPt Nanoclusters on Co/SnOx Mix-Oxide Demonstrates an Ultra-High-Performance Oxygen Reduction Reaction Activity. Nanomaterials 12(16) 2824.

  2. H. Y. Liu, S. F. Lin, D. W. Lee, J. Chou, S. W. Lee*, K. W. Wang*. Selective Formate Production from the Electrochemical CO2 Reduction Reaction of Surface Oxide-Modified InSn4 Binary Catalysts. ACS Applied Energy Materials 5(8) 9895-9901.

  3. Y. Jia, T. H. Huang, S. Lin, L. Guo, Y. M. Yu, J. H. Wang, K. W. Wang*, S. Dai*. Stable Pd–Cu Hydride Catalyst for Efficient Hydrogen Evolution. Nano Letters 22(3) 1391-1397.

  4. Y. Jiang, T. W. Huang, H. L. Chou, L. Zhou, S. W. Lee, K. W. Wang*, S. Dai*. Revealing and magnifying interfacial effects between ruthenium and carbon supports for efficient hydrogen evolution. Journal of Materials Chemistry A 10(34) 17730-17739.​

  5. C. T. Chiu, Y. J. Teng, B. H. Dai, I. Y. Tsao, W. C. Lind, K. W. Wang, L. C. Hsu, Y. C. Chang, C. T. Li, H. T. T. Nguyen, C. Y. Chiang*, W, H. Hung*. Novel high-entropy ceramic/carbon composite materials for the decomposition of organic pollutants. Materials Chemistry and Physics 275 125274.

  6. D. Bhalothiaa, D. W, Lee, G. P. Jhao, H. Y. Liu, Y. Jia, S. Dai, K. W. Wang*, T. Y. Chen*. Reaction pathways for the highly selective and durable electrochemical CO2 to CO conversion on ZnO supported Ag nanoparticles in KCl electrolyte. Applied Surface Science 608 155224.

  7. T. Yang, D. Bhalothia, H. W. Chang, C. Yan, A. Beniwal, Y. X. Chang, S. C. Wu, P. C. Chen, K. W. Wang*, S. Dai*, T. Y. Chen*. Oxygen vacancies endow atomic cobalt-palladium oxide clusters with outstanding oxygen reduction reaction activity. Chemical Engineering Journal 454 140289.

  8. D. Xia, X. Tang, S. Dai*, R. Ge, A. Rykov, J. Wang, T. H. Huang, K. W. Wang, Y. Wei, K. Zhang, J. Li, L. Gan*, F. Kang*. Ultrastable Fe–N–C Fuel Cell Electrocatalysts by Eliminating Non-Coordinating Nitrogen and Regulating Coordination Structures at High Temperatures. Advanced Materials 2204474.

  9. M. Cheng, D. Bhalothia ,W. Yeh, A. Beniwal, C. Yan, K. W. Wang, P. C. Chen, X. Tu, T. Y. Chen*. Optimization of SnPd Shell Configuration to Boost ORR Performance of Pt-Clusters Decorated CoOx@SnPd Core-Shell Nanocatalyst. Catalysts 12(11) 1411.

  10. Y. Jiang, T. W. Huang, H. L. Chou*, L. Zhou, S. W. Lee, K. W. Wang*, and S. Dai*. Revealing and magnifying interfacial effects between ruthenium and carbon supports for efficient hydrogen evolution. Journal of Materials Chemistry A 10(34) 17730-17739.

  11. D. Bhalothia, C. Yan, C. H. Wang*, S. S. Yang, Y. C. Huang, J. C. Kao, J. P. Chou, T. S. Chan, Y. L. Wang, X. Tu, S. Dai, K. W. Wang, and T. Y. Chen*. Surface Silicide Facilitates the CO2 Reduction Performance of Ni oxide supported Pd Nano-islands. Available at SSRN 4085248.

2021

Journal papers :

  1. T. H. Huang, D. Bhalothia, S. Dai, C. Yan, K. W. Wang*, T. Y. Chen*. Bifunctional Pt–SnOx nanorods for enhanced oxygen reduction and hydrogen evolution reactions. Sustainable Energy & Fuels 5(4), 2960-2971.

  2. H. Li, K. W. Wang, A. Hu*, J. P. Chou*, T. Y. Chen*. Tri-atomic Pt clusters induce the effective pathways in Co core-Pd shell nanocatalyst surface for the high-performance oxygen reduction reaction. Physical Chemistry Chemical Physics 23(33) 18012-18025.

  3. D. Bhalothia, Y. M. Yu, Y. R. Lin, T. H. Huang, C. Yan, J. F. Lee, K. W. Wang*, T. Y. Chen*. NiOx-supported PtRh nanoalloy enables high-performance hydrogen evolution reaction under universal pH conditions. Sustainable Energy & Fuels 5 (21) 5490-5504.

  4. B. J. Su, K. W. Wang, C. J. Tseng, K. T. Lu, C. W. Pao, J. F. Lee, H. S. Sheu, K. H. Wu, J. Y. Juang, J. M. Chen*. An In Situ Quick X‐ray Absorption Spectroscopy Study on Pt3Sn/Graphene Catalyst for Ethanol Oxidation Reaction. ChemCatChem 13 (1) 382-387.

  5. T. H. Huang, S. Lin, S. W. Lee, C. A. Lin, S. Dai, Y. Jia*, K. W. Wang*. PtAuSn Nanorod Catalysts with a Beneficial Core/Shell Structure for Oxygen Reduction Electrocatalysis. ACS Applied Energy Materials 4(4) 3067-3073.

  6. S. Dai, T. H. Huang, W. Liu, C. W. Hsu, S. W. Lee, T. Y. Chen*, Y. C. Wang, J. H. Wang*, K. W. Wang*. Enhanced CO2 Electrochemical Reduction Performance over Cu@AuCu Catalysts at High Noble Metal Utilization Efficiency. Nano Letters 21 (21) 9293-9300.

  7. D. Bhalothia, W. H. Hsiung, S. S. Yang, C. Yan, P. C. Chen, T. H. Lin, S. C. Wu*, P. C. Chen, K. W. Wang, M. W. Lin, T. Y.  Chen*. Submillisecond Laser Annealing Induced Surface and Subsurface Restructuring of Cu–Ni–Pd Trimetallic Nanocatalyst Promotes Thermal CO2 Reduction. ACS Applied Energy Materials 4 (12) 14043-14058.

2020

Journal papers :

  1. D. Bhalothia, T. H. Huang, C. W. Chang, T. H. Lin, S. C. Wu, K. W. Wang*, T. Y. Chen*. High-Performance and Stable Hydrogen Evolution Reaction Achieved by Pt Trimer Decoration on Ultralow-Metal Loading Bimetallic PtPd Nanocatalysts. ACS Applied Energy Materials 3(11) 11142-11152.

  2. B. J Su, K. W. Wang, C. J. Teseng, K. T. Lu, C. W. Pao, J. F. Lee, H. S. Sheu, K. H. Wu, J. Y. Juang, J. M. Chen. An In Situ Quick X‐ray Absorption Spectroscopy Study on Pt3Sn/Graphene Catalyst for Ethanol Oxidation Reaction. ChemCatChem 13(1) 382-387.

  3. D. Bhalothia, L. Krishnia, S. S. Yang, C. Yan, W. H. Hsiung, K. W. Wang, T. Y. Chen. Recent Advancements and Future Prospects of Noble Metal-Based Heterogeneous Nanocatalysts for Oxygen Reduction and Hydrogen Evolution Reactions. Applied Sciences 10(21) 7708.

  4. C. Yan, C. H. Wang, M. Lin, D. Bhalothia, S. S. Yang, G. J. Fan, J. L. Wang, T. S. Chan, Y. L. Wang, X. Tu, S. Dai, K. W. Wang, J. H. He, T. Y. Chen. Correction: Local synergetic collaboration between Pd and local tetrahedral symmetric Ni oxide enables ultra-high-performance CO2 thermal methanation. Journal of Materials Chemistry A 8(36) 19058-19059.

  5. D. Bhalothia, S. P. Wang, S. Lin, C. Yan, K. W. Wang*, P. C. Chen*. Atomic Pt-Clusters Decoration Triggers a High-Rate Performance on Ni@Pd Bimetallic Nanocatalyst for Hydrogen Evolution Reaction in Both Alkaline and Acidic Medium. Applied Sciences  10(15) 5155.

  6. T. H. Huang, D. Bhalothia, S. Lin, Y. R. Huang, K. W. Wang*. The Ethanol Oxidation Reaction Performance of Carbon-Supported PtRuRh Nanorods. Applied Sciences 10(11) 3923.

  7. C. Yan, C. H. Wang*, M. Lin, D. Bhalothia, S. S. Yang, G. J. Fan, J. L. Wang, T. S. Chan, Y. l. Wang, X. Tu, S. Dai, K. W. Wang, J. H. He, T. Y. Chen*. Local Synergetic Collaboration between Pd and local tetrahedral symmetric Ni Oxide enables ultra-high-performance CO2 Thermal Methanation. Journal of Materials Chemistry A 8(25) 12744-12756.

  8. D. Bhalothia, D. L. Tsai, S. P. Wang, C. Yan, T. S. Chan, K. W. Wang, T. Y. Chen, P. C. Chen. Ir-oxide mediated surface restructure and corresponding impacts on durability of bimetallic NiOx@Pd nanocatalysts in oxygen reduction reaction. Journal of Alloys and Compounds 844 156160.

  9. D. Bhalothia, P. C. Chen*, C. Yan, W. Yeh, D. L. Tsai, T. S. Chan, K. W. Wang, T. Y. Chen*. Heterogeneous Assembly of Pt-Clusters on Hierarchical Structured CoOx@SnPd2@SnO2 Quaternary Nanocatalyst Manifesting Oxygen Reduction Reaction Performance. New Journal of Chemistry 44(23) 9712-9724.

  10. B. J. Su, K. W. Wang, C. J. Tseng, C. W. Pao, J. L. Chen, K. T. Lu, J. M. Chen*. High durability of Pt3Sn/Graphene electrocatalysts toward oxygen reduction reaction studied with in-situ QEXAFS, ACS Appl. Mater. Interfaces 12(22) 24710–24716.

  11. D. Bhalothia, T. H. Huang, P. H. Chou, P. C. Chen, K. W. Wang, T. Y. Chen. CO-Reductive and O2-Oxidative Annealing Assisted Surface Restructure and Corresponding Formic Acid Oxidation Performance of PdPt and PdRuPt Nanocatalysts, Scientific Reports 10(1) 8457.

  12. D. Bhalothia, T. H. Huang, P. H. Chou, K. W. Wang*, T. Y. Chen*, Promoting formic acid oxidation performance of Pd nanoparticles via Pt and Ru atom mediated surface engineering. RSC Advances 10(29) 17302-17310.

  13. Y. Y. Hung, W. S. Liu, Y. C. Chen, K. W. Wang, T. P. Perng*. On the mesoporous TiN catalyst support for proton exchange membrane fuel cell. International Journal of Hydrogen Energy 45(27) 14083-14092.

  14. S. Dai, T. H. Huang, P. C. Chien, C. A. Lin, C. W. Liu, S. W. Lee, J. H. Wang*, K. W. Wang*, X. Pan*. Optimization of Pt-Oxygen-Containing-Species Anodes for Ethanol Oxidation Reaction: High Performance of Pt-AuSnOx Electrocatalyst. J. Phys. Chem. Lett 11(8) 2846–2853.

  15. D. Bhalothia, L. Shuan, Y. J. Wu, C. Yan, K. W. Wang, T. Y. Chen*, A highly mismatched NiO2-to-Pd hetero-structure as an efficient nanocatalyst for the hydrogen evolution reaction. Sustainable Energy & Fuels 4(5) 2541-2550.

2019

Journal papers :

  1. D. Bhalothia, P. C. Chen, C. Yan, K. W. Wang*, T. Y. Chen*, Heterogeneous NiO2-to-Pd Epitaxial Structure Performs Outstanding Oxygen Reduction Reaction Activity, J. Phys. Chem. C (2020) , 124, 4, 2295–2306.

  2. W. Cai, J. P. Chou, K. W. Wang, T. Y. Chen, Y. Y. Hsu, A. Hu, X. Q. Pan, Platinum-trimer Decorated Cobalt-palladium Core-shell Nanocatalyst with Promising Performance for Oxygen Reduction Reaction, Nature Communications (2019) 10, Article number: 440.

  3. Dinesh Bhalothia, S Dai, S.P Wang, C Yan, T.H Huang, P.C Chen, Nozomu Hiraoka, K.W Wang*, T.Y Chen*, Sub-nanometer Pt Clusters Decoration Enhances the Oxygen Reduction Reaction Performances of NiOx Supported Pd Nanoislands, Sustainable Energy & Fuels (2019).

  4. K.R Lee, C.J Tseng, J.K Chang, K.W Wang, Y.S Huang, T.C Chou, L.D Tsai, S.W Lee*, Nano-fibrous SrCe0.8Y0.2O3-δ-Ni anode functional layer for proton-conducting solid oxide fuel cells, Journal of Power Sources (2019) 436:226863.

  5. T.H Huang, H.S Zheng, Y.M Cheng, C.W Liu, S.W Lee, J.H Wang*, K.W Wang*, The preparation and mechanistic study of highly effective PtSnRu ternary nanorods catalysts toward ethanol oxidation reaction, Sustainable Energy Fuels(2019), 3, 3352–3362.

  6. K. R. Lee, C. J. Tseng, S. C. Jason Jang, S. W. Lee, J. C. Lin, J. K, Chang, T. C. Chen, K. W. Wang, Fabrication of Anode-Supported Thin BCZY Electrolyte Protonic Fuel Cells Using NiO Sintering Aid, International Journal of Hydrogen Energy Volume 44, Issue 42 (2019), Pages 23784-23792.

  7. Dinesh Bhalothia, Y. J. Fan, T. H. Huang, T. Y. Chen, Z. J. Lin, Y. T. Yang, K. W. Wang*, Local Structural Disorder Enhances the Oxygen Reduction Reaction Activity of Carbon-Supported Low Pt Loading CoPt Nanocatalysts, J.Phys. Chem. C (2019) 123, 31, 19013-19021.

  8. Supplementary Material

2018

Journal papers :

  1. S. Dai. C. B. Siao, S. R. Chung, K. W. Wang*, X. Pan. Developed One-pot Synthesis of Dual-color CdSe Quantum Dots for White Light-emitting Diode Application. J. Mater. Chem. C, (2018), 6, 3089-3096.

  2. S. Dai , Y. S. Su, S. R. Chung, K. W. Wang*. X. Pan. Controlling Magic Size of White Light-emitting CdSe Quantum Dots. Nanoscale, (2018), 10, 10256-10261.

  3. S. Y. Yan. C. W. Liu. T. H. Huang. Y. Z. Guo. S. W. Lee. J. H. Wang. K. W. Wang*. Composition Effect of Oxygen Reduction Reaction on PtSn Nanorods: An Experimental and Computational Study. International Journal of Hydrogen Energy (2018)  Volume 43, Issue 31, Pages 14427-14438.

  4. L. C. Wang, B. H. Liu, C.-Y. Su, W.-S. Liu, C. C. Kei,  K. W. Wang, T. P. Perng . Electronic Band Structure and Electrocatalytic Performance of Cu 3 N Nanocrystals, ACS Appl. Nano Mater. (2018) 1, 7, 3673-3681.

  5. S.-R. Chung, C. B. Siao, K. W. Wang*, Full Color Display Fabricated by CdSe Bi-color Quantum Dots-based White Light-emitting Diodes, Optical Materials Express (2018) Vol 8, Issue 9, pp. 2677-2686.

  6. S.-R. Chung, K. W. Wang*, Chia Wen Chang, Fabrication of High Quantum Yield of CIS/ZnS Quantum Dots, Proceedings Volume 10724, Physical Chemistry of Semiconductor Materials and Interfaces XVII (2018) ; 107241C.

  7. S. Dai, T. H. Huang, X. Yan, C. Y. Yang, T. Y. Chen, J. H. Wang*, X. Pan*, K. W. Wang*, Promotion of Ternary Pt-Sn-Ag Catalysts toward Ethanol Oxidation Reaction:   Revealing Electronic and Structural Effect of Additive Metals, ACS Energy Lett. (2018) 3, 10, 2550-2557.

2017

Journal papers :

  1. K. W. Wang*, Z. Yu, A. Hu, Y. Y. Hsu, T. L. Chen, C. Y.  Lin, C. W. Hu,  Y. T. Yangd. T. Y. Chen .Rapid Crystal Growth of Bimetallic PdPt Nanocrystals with Surface Atomic Pt Cluster Decoration Provides Promising Oxygen Reduction Activity RSC Adv. (2017),7, 55110-55120.

  2. S. Y. Yan.Y. R. Huang. C. Y. Yang. C. W. Liu. J. H. Wang. K. W. Wang*. Enhanced Activity of Ethanol Oxidation Reaction on PtM (M=Au, Ag and Sn): The Importance of Oxophilicity and Surface Oxygen Containing Species. Electrochimica Acta 259 (2018) 733-741.

  3. Y. J. Zeng, S. C. Twan, K. W. Wang*, H. H. Huang, Y. B. Hsu, C. Y. Wang, M. Y. Lan. S. W. Lee. Enhanced Biocompatibility in Anodic TaOx Nanotube Arrays. Nanoscale Research Letters (2017) 12:557.

  4. Y. Z. Guo, S. Y. Yan, C. W. Liu, T. F. Chou, J. H.Wang. K. W. Wang*.The Enhanced Oxygen Reduction Reaction Performance on PtSn Nanowires: The Importance of Segregation Energy and Morphological Effects. J. Mater. Chem. A (2017) , 5, 14355-14364.

  5. K. R. Lee. C. J. Tseng. J. K. Chang. K. W. Wang, Y. S. Huang. T. C. Chou. K. C. Chiu. L. D. Tsai. S. W. Lee. Ba1−xSrxCe0.8−yZryY0.2O3−δ Protonic Electrolytes Synthesized by Hetero-composition-exchange Method for Solid Oxide Fuel Cells. Volume 42, Issue 34, 24 August (2017) 22222-22227.

2016

Journal papers :

  1. S. R. Chung. S. S. Chen. K. W. Wang* . C. B. Siao. Promotion of Solid-State Lighting for ZnCdSe Quantum Dots Modified-YAG-based White Light-Emitting Diodes. RSC Adv. 6 (2015)  51989-51996 .

  2. T. J. Lin. T. F. Chou. C. W. Liu. P. H. Huang. Y. Z. Guo. J. H. Wang. K. W. Wang* . The Structure-dependent Enhancement of Oxygen Reduction Reaction Performance for Co-based low Pt catalysts through Au Addition. J. Mater. Chem. A(2016) 11023-11029

  3. T. Y. Chen. S. T. Chang. C. W. Hu. Y. F. Liao. Y. J. Su. Y. Y. Hsu. K. W. Wang* .  Y. T. Liu. Self-aligned synthesis of NiPt-alloy core @Pt shell nanocrystal with contrivable heterojunction structure and oxygen reduction activity.  CrystEngComm (2016) 18 ​(2015) 5860-5868 .

  4. C. B. Siao. K. W. Wang* . H. S. Chen. Y. S. Su. S. R. Chung.  Ultra high luminous efficacy of white Zn_xCd_1-xS quantum dots based white light emitting diodes. Optical Materials Express 6 (2016) 749-758 .

  5. T. Y. Chen. Y. T. Liu. J. H. Wang. G. W. Lee. P. W. Yang. K. W. Wang* .  Size Effect of Atomic Gold Cluster for Carbon Monoxide Passivation at RuCore-PtShell Nanocatalysts. J. Phys. Chem. C. 120 (2016)7621-7628 .

  6. C. H. Chen. Y. R. Cuang. C. W. Liu. K. W. Wang* . Preparation and Modification of PdAg Membranes by Electroless and Electroplating Process for Hydrogen Separation. Thin Solid Films. Thin Solid Films (2016) Volume 618, Part A, Pages 189-194.

  7. J. T. Shen. K. W. Wang. C. J. Tseng. K. R. Lee. Y. J. Hsueh. The oxygen reduction reaction of ordered porous carbon supported PtSn catalysts . RSC Adv. 6(2016) 44205-44211 .

  8. C. B. Siao.S.-R. Chung. K. W. Wang* The stability improvement of wide emission Zn 0.8 Cd 0.2 S quantum dot for white light-emitting diodes RSC Adv. 5(2105):87667-87671 .

  9. P.H Huang . C. W. Liu. Y. Z. Guo. S. W. Lee . Z. J. Lin. K. W. Wang* The Effect of Atomic Arrangements on the Oxygen Reduction Reaction Performance of Carbon-supported CoPtAg Catalysts . in Electrochimica Acta(2016) 219; 531-539 .

  10. J. H. Wang,  K. W. Wang*  T. L. Chen, C. H. Wang,  Y. M. Huang,  Y. Y. Hsud  and  T. Y. Chen .Local heterojunction of Atomic Pt cluster boosts the oxygen reduction activity of RuCore@PdShell nanocrystallite . J. Mater. Chem. A, (2016),4, 17848-17856 .

2015

Journal papers :

  1. Y. T. Liang, S. P. Lin, C. W. Liu, S. R. Chung, T. Y. Chen, J. H. Wang*, K. W. Wang*, The performance and stability of the oxygen reduction reaction on Pt–M (M = Pd, Ag and Au) nanorods: an experimental and computational Study, Chem. Commun. 51 (2015) 6605-6608.

  2. Y. T. Liang, C. W. Liu, H. S. Chen, T. J. Lin, C. Y. Yang, T. L. Chen, C. H. Lin, M. C. Tu, K. W. Wang*, The Enhancement of Oxyge Reduction Reaction Performance of Pt Nanomaterials by 1-Dimensional Structure and Au Alloying, RSC Adv. 5 (2015) 39205-39208.

  3. Y. C. Chen, H. S. Chen, S. R. Chung, J. K. Chang and K. W. Wang*, The effect of surface structures and compositions on thequantum yields of highly effective Zn0.8Cd0.2S nanocrystals, J. Mater. Chem. C 3 (2015) 5881-5884.

  4. H. S. Chen, S. R. Chung, Y. C. Chen, T. Y. Chen, C. Y. Liu and K. W. Wang*, The structure-dependent quantum yield of ZnCdS nanocrystals, CrystEngComm 17 (2015) 5032-5037.

  5. S. P. Lin, K. W. Wang*, C. W. Liu, H. S. Chen, and J. H. Wang*, Trends of Oxygen Reduction Reaction on Platinum Alloys: A Computational and Experimental Study, J. Phys. Chem. C 119 (2015) 15224-15231 .

  6. C. H. Yang. C. P. Hsu.  S. L. Zee. K. W. Wang* . J. K. Chang. Cost-Effective Hierarchical Catalysts for Promoting Hydrogen Release from Complex Hydrides.  ChemSusChem 16 (2015) 2713-2718 .

  7. C. Y. Su. B. H. Liu. T. J. Lin. Y. M. Chi. C. C. Kei. K. W. Wang* . T. P. Perng . Carbon Nanotube-Supported Cu3N Nanocrystals as Highly Active Catalyst for Oxygen Reduction Reaction. 3 (2015) 18983-18990 .

  8. Y. C. Chen. C. B. Siao. H. S. Chen. K. W. Wang*. S. R. Chung. The application of Zn 0.8 Cd 0.2 S nanocrystals in white light emitting diodes devices. RSC Adv. 5 (2015) 87667-87671 .

  9. P. W. Yang. Y. T. Liu. H. S. Ping. K. W. Wang* . U. S. Jeng. T. L. Lin. T. Y. Chen. Core-Shell nano Crystallite Growth via Heterogeneous Interface Manipulation. CrystEngComm 17 (2015) 8565–8764 .

2014

Journal papers :

  1. C. W. Liu, C. M. Lai, J. N. Lin, L. D. Tsai,  K. W. Wang*,“Highly Effective Oxygen Reduction Activity and Durability of Titanium, Oxide Modified PtAu/C Electrocatalysts”, RSC Advances  4 (2014) 15820-15824.

  2. H. S. Chen, S. R. Chug, T. Y. Chen,  K. W. Wang*, “Correlation between Surface State and Band Edge Emission of White Light ZnxCd1-xS Nanocrystals”, J. Mater. Chem. C  2 (2014) 2664-2667.

  3. Y. C. Tseng, H. S. Chen, C. W. Liu, T. H. Yeh, K. W. Wang*,“The Effect of Alloying on the Oxygen Reduction Reaction Activity of Carbon-Supported PtCu and PtPd Nanorods”, J. Mater. Chem. A   2 (2014) 4270-4275.

  4. C. W. Liu, H. S. Chen, C. M. Lai, J. N. Lin, L. D. Tsai, K. W. Wang*, “Promotion of Oxygen Reduction Reaction  Durability of Carbon-Supported PtAu Catalysts by Surface Segregation and TiO2 Addition”, ACS Appl. Mater. Interfaces  6 (2014) 1589-1594.

  5. S. R. Chung, H. S. Chen, C. Y Chien, M. Y. Bai, K. W. Wang*, “The Promotion of the Efficiency of Organic Photovoltaic Devices by Addition of Anisotropic CdSe Nanocrystals”, Int. J. Photoenergy  (2014)  Article ID 219123.      

  6. H. S. Chen, Y. T. Liang, T. Y. Chen, Y. C. Tseng, C. W. Liu, S. R. Chung, C. T. Hsieh, C. E. Lee , K. W. Wang*, “Graphene Supported Pt and PtPd Nanorods with Enhanced Electrocatalytic Performance for the Oxygen Reduction Reaction”, Chem. Commun. 50 (2014) 11165-11168.

  7. P. C. Huang, H. S. Chen, Y. T. Liu, I. L. Chen, S. Y. Huang, H. M. Nguyen, K. W.  Wang, C. C. Hud, T. Y. Chen, Oxidation triggered atomic restructures enhancing the electrooxidation activities of carbon supported platinum–ruthenium catalysts CrystEngComm 16(2014) 10066–10079. 

2013

Journal papers :

  1. P. C. Su, H. S. Chen, T. Y. Chen, C. W. Liu, C. H. Lee, J. F. Lee, T. S. Chan, K. W. Wang*, Enhancement of Electrochemical Properties of Pd/C Catalysts toward Ethanol Oxidation Reaction in Alkaline Solution through Ni and Au alloying, Int. J. Hydrogen. Energy (2013) 4474-4472.

  2. T. H. Yeh, C. W. Liu, H. S. Chen, K. W. Wang*, Preparation of carbon-supported PtM (M = Au, Pd, or Cu) nanorods and their application in   oxygen reduction reaction, Electrochem. Commun. 31 (2013) 125-128.

  3. S. P. Hsu, C. W. Liu, H. S. Chen, T. Y. Chen, C. M. Lai, C. H. Lee, J. F. Lee, T. S.    Chan, L. D. Tsai, K. W. Wang*, The effect of Mn addition on the promotion of  oxygen reductionreaction performance for PtCo/C catalysts, Electrochim. Acta   105 (2013) 180– 187.

  4. S. R. Chung*, K. W. Wang, M. W. Wang, Hybrid YAG/CdSe Quantum Dots Phosphors for White Light-Emitting Diodes, J. Nanosci. Nanotechnol. 13 (2013)4358-4363.

  5. H. S. Chen, K. W. Wang, S. S. Chen, S. R. Chung*, ZnxCd1−xS quantum dots–based white light-emitting diodes, Opt. Lett. 38 (2013) 2080-2082.

  6. S. R. Chung*, K. W. Wang, H. S. Chen, Green Light Emission of Zn𝑥Cd1−𝑥Se Nanocrystals Synthesized by One-Pot Method, J. Nanomater. Volume 2013, Article ID 526862.

  7. M. Janyasupab∗, C. W. Liu, Y. Zhang, K. W. Wang, C. C. Liu, Bimetallic Pt–M (M = Cu, Ni, Pd, and Rh) nanoporous for H2O2 based amperometric biosensors, Sens. Actuators B- Chem 179 (2013) 209- 214.

  8. T. Y. Chen*, Y. T. Liu, H. S. Chen, K. W. Wang, C. T. Yang, T. J. M. Luo, C. H. Lee, T. L. Lin, Crystal Growth of Platinum Ruthenium Bimetallic   Nanocrystallite and Their Methanol Electrooxidation Activity, CrystEngComm 15 (2013) 3932-3942.

Conference papers :

  1. K. W. Wang*, Y. C. Wei, P. C. Su, The application of ternary alloys as electrocatalysts for fuel cells, 7th Asian Conference on Electrochemical Power Sources, Osaka, Japan, Nov. 24-27, 2013. 

  2. Y. C. Tseng and K. W. Wang*, Preparation and Characterization of Carbon-supported PtCu and PtPd Nanorods for Oxygen Reduction Reaction 7th Asian Conference on Electrochemical Power Sources, Osaka, Japan Nov. 24-27, 2013. 

2012

Journal papers :

  1. C. W. Liu, Y. C. Wei, C. C. Liu, K. W. Wang*, Pt–Au core/shell nanorods: preparation and applications as electrocatalysts for fuel cells, J. Mater. Chem. 22 (2012)4641-4644.

  2. Y. C. Wei, T. Y. Chen, C. W. Liu, T. S. Chan, J. F. Lee, C. H. Lee, T. L. Lin, K. W. Wang*, The structure modification and activity improvement of Pd–Co/C    electrocatalysts by the addition of Au for the oxygen reduction reaction, Catal. Sci. Technol. 2 (2012) 1654–1664.

  3. K. W. Wang, W. D. Kang, Y. C. Wei, C. W. Liu, P. C. Su, H. S. Chen, S. R. Chung*, Promotion of PdCu/C Catalysts for Ethanol Oxidation in Alkaline Solution by SnO2 Modifier, ChemCatChem 4 (2012) 1154-1161.

  4. B. J. Su, K. W. Wang, T. C. Cheng, C. J. Tseng*, Preparation of PtSn/C electrocatalysts with improved activity and durability toward oxygen reduction reaction by alcohol-reduction process, Mater. Chem. Phys. 135 (2012) 395-400.

  5. B. J. Su, K. W. Wang, C. J. Tseng*, C. H. Wang, Y. J. Hsueh, Synthesis and catalytic property of PtSn/C toward the ethanol oxidation reaction, Int. J. Electrochem. Sci. 7 (2012) 5246-5255.

  6. T. Y. Chen*, T. J. M. Luo, Y. W. Yang, Y. C. Wei, K. W. Wang, T. L. Lin, T. C. Wen, C. H. Lee, Core Dominated Surface Activity of Core/Shell Nanocatalysts on Methanol Electrooxidation, J. Phys. Chem. C. 116 (2012)16969-16978.

  7. Y. Zhang, M. Janyasupab, C. W. Liu, P. Y. Lin, K. W. Wang, J. Xu, C. C. Liu*,         Improvement of amperometric biosensor performance for H2O2 detection based   on bimetallic PtM (M = Ru, Au and Ir) nanoparticles, Int. J. Electrochem. vol. 2012, Article ID 410846.

Conference papers :

  1. K. W. Wang*, C. W. Liu, Y. C. Wei, Preparation and Modification Pt-Au Electrocatalysts for Oxygen Reduction Reaction, International Conference of Young Researchers on Advanced Materials (ICYRAM), Singapore, July 1-6, 2012.

  2. H. S. Chen, S. R. Chung, K. W. Wang*, Optical and Device Properties of ZnxCd1-xS Nanocrystals, ICYRAM, Singapore, July 1-6, 2012.

Patents :

  1. S. R. Chung, K. W. Wang, C. C. Chiang, Light emitting diode devices and fabrication method thereof, R.O.C. Patent I365546, Jun.1, 2012-Jun. 28, 2027.

  2. S. R. Chung, K. W. Wang, L. K. Lin, C. Y. Huang, C. C. Chiang, Preparation method of white light quantum dot, P.O.C. Patent ZL 2007 1 0165934.0, May 23, 2012.

 

2011

Journal papers :

  1. Y. C. Wei, C. W. Liu, W. J. Chang, K. W. Wang*, Promotion of Pt-Ru/C catalysts driven by heat treated induced surface segregation for methanol   oxidation reaction, J. Alloys Compd. 509 (2011) 535-541.

  2. W. D. Kang, Y. C. Wei, C. W. Liu, K. W. Wang*, Enhancement of     electrochemical properties on Pd–Cu/C electrocatalysts toward ethanol  oxidation by atmosphere induced surface and structural alteration. Electrochem. Commun. 13 (2011)162-165.

  3. C. W. Liu, Y. W. Chang, Y. C. Wei, K. W. Wang*, The effect of oxygen containing species on the catalytic activity of ethanol oxidation for PtRuSn/C   catalysts, Electrochim. Acta 56 (2011) 2574-2581.

  4. Y. C. Wei, C. W. Liu, H. W. Lee, S. R. Chung, S. L. Lee, T. S. Chan, J. F. Lee, K. W. Wang*, Synergistic effect of Co alloying and surface oxidation on oxygen reduction reaction performance for the Pd electrocatalysts, Int. J. Hydrogen Energy 36 (2011) 3789-3802.

  5. C. W. Liu, Y. C. Wei, K. W. Wang*, Surface Condition Manipulation and Oxygen Reduction Enhancement of PtAu/C Catalysts Synergistically Modified by CeO2 Addition and N2 Treatment, J. Phys. Chem. C 115 (2011) 8702–8708.

  6. Y. C. Wei, C. W. Liu, W. D. Kang, C. M. Lai, L. D. Tsai, K. W. Wang*,     Electro-catalytic activity enhancement of Pd–Ni electrocatalysts for the ethanol electro-oxidation in alkaline medium: The promotional effect of CeO2 addition, J. Electroanal. Chem. 660 (2011) 64–70.

  7. Y. C. Wei, C. W. Liu, K. W. Wang*, Improvement of oxygen reduction reaction and methanol tolerance characteristics for PdCo electrocatalysts by Au alloying and CO treatment, Chem. Commun. 47 (2011) 11927–11929.

  8. M. Janyasupab, C. W. Liu, Y. Zhang, K. W. Wang, J. Xu, A. C. Samia, C. C. Liu*,  Bimetallic Platinum Based Catalysts For Biosensors and Energy Storage Applications, Curr. Top. Electrochem. 16 (2011) 93-112.

Conference papers :

  1. C. W. Liu, Y. C. Wei, K. W. Wang*, Pt-Au Core/Shell Nanorods: Preparation and Applications as Electrocatalysts for Oxygen Reduction Reaction, Nanotech 2011 Conference and Expo, Boston, MA, USA, June 13-16, 2011.

  2. Y. C. Wei, C. W. Liu, K. W. Wang*, Oxygen Reduction Reaction Enhancement of PdCo/C Electrocatalysts Driven by Oxidation Treatment, Nanotech 2011 Conference and Expo, Boston, MA, USA, June 13-16, 2011.

Patents :

  1. S. R. Chung, K. W. Wang, C. C. Chiang, Light emitting diode devices and fabrication method thereof, US Patent 7,884,384 B2, Feb. 8, 2011.

  2. S. R. Chung, K. W. Wang, L. K. Lin, C. Y. Huang, C. C. Chiang, Preparation method of white light quantum dot, R.O.C. Patent I353376, Dec.1, 2011-Oct. 4, 2027.

2010

Journal papers :

  1. Y. C. Wei, C. W. Liu, Y. W. Chang, C. M. Lai, P. Y. Lim, L. D. Tsai, K. W. Wang*,  The Structure-Activity Relationship of Pd–Co/C Electrocatalysts for Oxygen Reduction Reaction, Int. J Hydrogen Energy 35 (2010) 1864-1871.

  2. C. W. Liu, Y. C. Wei, K. W. Wang*, Promotion of Ceria-Modified Pt-Au/C Cathode Catalysts for Oxygen Reduction Reaction by H2-Induced Surface Segregation, Chem. Commun. 46 (2010) 2483–2485.

  3. C. C. Wang, K. W. Wang, T. P. Perng*, Electron Field Emission from Fe-doped TiO2 Nanotubes, Appl. Phys. Lett. 96 (2010)1431021-1431023.

  4. Y. C. Wei, C. W. Liu, K. W. Wang*, Surface Species Alteration and Oxygen     Reduction Reaction Enhancement of Pd-Co/C Electrocatalysts Induced by Ceria Modification, ChemPhysChem 11 (2010) 3078- 3085.

Conference papers :

  1. C. W. Liu, Y. C. Wei, K. W. Wang*, Surface and Electrochemical Properties of Pt-Au/C Cathode Catalysts for Oxygen Reduction Reaction:The Promotion Effect of Ce Addition and Post Heat Treatment, NHA Hydrogen Conference andExpo,  Long Beach, California, May 3-6, 2010.

  2. Y. C. Wei, C. W. Liu, K. W. Wang*, The preparation, promotion, and characterization of structure- and surface-tunable Pd-Co/C cathode catalysts for oxygen reduction reaction, NHA Hydrogen Conference and Expo, Long Beach, California, May 3-6, 2010.

Patents :

  1. S. R. Chung, K. W. Wang, L. K. Lin, C. Y. Huang, C. C. Chiang, Preparation method of white light quantum dot, US Patent 7,678,359 B2, Mar. 16, 2010.

2009

Journal papers :

  1. K. W. Wang, S. R. Chung, Y. C. Wei, J. F. Lee, T. P. Perng*, Temperature-programmed surface reaction (TPSR) of CH4   synthesis by PdxNi100-x nanoparticles, Appl. Surf. Sci. 255 (2009) 5802-5805.

  2. S. R. Chung, K. W. Wang, M. H. Teng, T. P. Perng*, Electrochemical hydrogenation of nanocrystalline face-centered cubic Co powder, Int. J   Hydrogen Energy 34 (2009) 1383-1388.

  3. Y. C. Wei, C. W. Liu, K. W. Wang*, Activity–Structure Correlation of PtRu Catalysts for the Electrodecomposition of Methanol: The Importance of RuO2 and PtRu Alloying, ChemPhysChem 10 (2009) 1230-1237.

  4. C. W. Liu, Y. C. Wei, K. W. Wang*, Preparation and characterization of    carbon-supported Pt–Au cathode catalysts for oxygen reduction reaction, J. Colloid Interface Sci. 336 (2009) 654-657.

  5. C. W. Liu, Y. C. Wei, K. W. Wang*, Preparation and surface characterization of Pt–Au/C cathode catalysts with ceria modification for oxygen reduction reaction, Electrochem. Commun. 11 (2009) 1362-1364.

  6. Y. W. Chang, C. W. Liu, Y. C. Wei, K. W. Wang*, Promotion of PtRu/C anode catalysts for ethanol oxidation reaction by addition of Sn modifier, Electrochem. Commun. 11 (2009) 2161-2164

Conference papers :

  1. Y. C. Wei, C. W. Liu, K. W. Wang*, Preparation and Characterization of   Carbon-Supported Pd-Co Cathode Catalysts for PEMFC: The Promotional Effect of Ceria Addition, Hydrogen and Fuel Cell 2009 International Conference and Exhibition, Vancouver, BC, Canada, May 31-June 3, 2009.

  2. I. H. Chang, Y. C. Wei, K. W. Wang*, Promotion of Hydrogenation of Li3N by Addition of Pd-Based Alloy Catalysts, Hydrogen and Fuel Cell 2009 International Conference and Exhibition, Vancouver, BC, Canada, May 31- June 3, 2009.

2008

Journal papers :

  1. K. W. Wang*, S. R. Chung, and C. W. Liu, Surface segregation of PdxNi100-x alloy nanoparticles, J. Phys. Chem. C 112 (2008) 10242-10246.

  2. K. W. Wang and C. T. Yeh*, Temperature-Programmed Reduction Study on Carbon Supported Platinum-Gold Alloy Catalysts, J. Colloid Interface Sci. 325 (2008) 203-206.

  3. C. Y. Chou, K. W. Wang, S. L. Lee*, T. S. Yang, Modifying Al–7Si–0.35Mg alloys using equal channel angular extrusion, Mater. Lett. 62 (2008) 2469-2472.

  4. C. Y. Chou, C. W. Hsu, S. L. Lee*, K. W. Wang, J. C. Lin, Effects of heat  treatments on AA6061 aluminum alloy deformed by cross-channel extrusion, J. Mater. Process. Technol. 202 (2008) 1-6.

Conference papers :

  1. C. W. Liu, Y. C. Wei, K. W. Wang*, Preparation of Ceria-Modified Pt–Au/C Cathode Catalysts for Oxygen Reduction Reaction, 17th World Hydrogen Energy Conference, Brisbane, Australia, Jun. 15-19, 2008.

2007

Journal papers :

  1. K. W. Wang, S. Y. Huang, C. T. Yeh*, Promotion of Carbon Supported Platinum-Ruthenium Catalyst for Electrode composition of Methanol, J. Phys. Chem. C 111 (2007) 5096-5100.

  2. S. R. Chung, K. W. Wang, T. P. Perng*, Electrochemical Reduction and Hydrogenation of Co Oxides, Electrochem. Solid State Lett. 10 (2007) A155-A158.

  3. S. Y. Huang, C. M. Chang, K. W. Wang, and C. T. Yeh*, Promotion of Platinum-Ruthenium Catalyst for Electrooxidation of Methanol by Crystalline Ruthenium Dioxide, ChemPhysChem 8 (2007) 1774-1777.

Conference papers :

  1. K. W. Wang and C. T. Yeh*, Promotion and preparation of PtRu/C Catalysts,    International Fuel Cell   Symposium 2007, Taoyuan, Taiwan, Sept. 13-14, 2007.

2006

Journal papers :

  1. K. W. Wang, S. R. Chung, L. Y. Jang, J. F. Lee, T. P. Perng*, Variation of Surface Composition and Sintering of Binary Pd70Ag30 Nanoparticles, J. Alloys Compd. 415 (2006) 62-65.

  2. K. W. Wang, S. R. Chung, W. H. Hung, T. P. Perng*, Desorption of Surfactant and Sintering of Surface-modified PdxNi1- x Nanoparticles, Appl. Surf. Sci. 252   (2006) 8751-8755.

  3. K. W. Wang, S. R. Chung, T. P. Perng*, Selective Oxidation of Pd and Compositional Reconstruction in Pd70Ag30 Alloy Nanoparticles, J. Alloys Compd. 417 (2006) 60-62.

  4. K. W. Wang, S. R. Chung, and T. P. Perng*, Surface Segregation and Homogenization of Pd70Ag30 Alloy Nanoparticles, J. Alloys Compd. 422 (2006) 223-226.

  5. K. W. Wang, S. R. Chung, L. Y. Jang, J. F. Lee, T. P. Perng*, Effect of Surface Modification on De-alloying of Pd70Ag30 Nanoparticles, J. Alloys Compd. 426 (2006) 341-344.

  6. S. R. Chung, K. W. Wang, T. P. Perng*, Electrochemical Hydrogenation of Crystalline Co Powder, J. Electrochem. Soc. 153, (2006) A1128-1131.

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