國際期刊論文
125. |
Kai-Siang Jhang, Yi-Chun Yang, Ying-Rui Lu, Kai-Yuan Hsiao, Ming-Yen Lu, Hsing-Yu Tuan Harnessing Berthollide Configuration Entropy for Expedited K+ Storages. ViewAdvanced Functional Materials 2024, 2411082 (SCI, IF:19.0) |
124. |
Yi-Yen Hsieh, Yu-Chun Chuang, and Hsing-Yu Tuan Unraveling Dual Mechanisms in Quasi-Layered Bi2O2Se via Defect Modulation for High-Performance Aqueous Zn-Ion Batteries. ViewAdvanced Functional Materials 2024, 2406975 (SCI, IF:19.0) |
123. |
Che-Bin Chang, Hsin-Yun Tsai, Hsing-Yu Tuan Tubular design and metal ratio refinement of copper telluride electrodes for superior volumetric capacity in potassium-ion batteries. ViewJournal of Energy Storage 2024, 111929 (SCI, IF:9.4) |
122. |
Yi-Yen Hsieh, Hsing-Yu Tuan Emerging trends and prospects in aqueous electrolyte design: Elevating energy density and power density of multivalent metal-ion batteries. ViewEnergy Storage Materials 2024, 103361 (SCI, IF:20.4) |
121. |
Wei-Wen Shen, Yi-Yen Hsieh, Yi-Chun Yang, Kai-Yuan Hsiao, Ming-Yen Lu, Chi Wei Chou, and Hsing-Yu Tuan Thermodynamic Origin-Based In Situ Electrochemical Construction of Reversible p-n Heterojunctions for Optimal Stability in Potassium Ion Storage. View
Advanced Science,
2024,
2308582
(SCI, IF:
15.1) |
120. |
Shou-Shan Mai, Yi-Chun Yang , Hsing-Yu Tuan Exfoliated misfit layer compounds synergize conversion-alloying-intercalation triple mechanism for enhanced rate performance in potassium ion storages. ViewChemical Engineering Journal 2024, 483, 149289 (SCI, IF:15.1) |
119. |
Shaokun Chong, Ting Li, Shuangyan Qiao, Yi-Chun Yang, Zhengqing Liu, Jing Yang, Hsing-Yu Tuan, Guozhong Cao, and Wei Huang Boosting Manganese Selenide Anode for Superior Sodium-Ion Storage via Triggering α → β Phase Transition. ViewACS Nano 2024, 18, 3801−3813 (SCI, IF:17.1) |
118. |
Yan-Jie Liao, Yi-Yen Hsieh, Yi-Chun Yang, Hsing-Yu Tuan Revealing bimetallic synergy in van der Waals AgInP2Se6 nanosheets for alkali metal ion battery electrodes. View
Journal of Energy Storage
2024,
109737 (SCI, IF:9.4) |
117. |
Shou-Shan Mai, Kai-Yuan Hsiao, Yi-Chun Yang, Ying-Rui Lu, Ming-Yen Lu, Yi-Yen Hsieh, Che-Bin Chang , Hsing-Yu Tuan Synchronous regulation of Schottky/p-n dual junction in Prussian blue-derived Janus heterostructures: A path to ultrafast long life potassium ion batteries. ViewChemical Engineering Journal 2023, 474, 145992 (SCI, IF:15.1) |
116. |
|
115. |
Po-Wen Chien, Che-Bin Chang, and Hsing-Yu Tuan High-entropy two-dimensional metal phosphorus trichalcogenides boost high-performance potassium ion storage devices via electrochemical reconstruction. ViewEnergy Storage Materials 2023, 61, 102853 (SCI, IF:20.4) |
114. |
Yan-Jie Liao, Wei-Wen Shen, Che-Bin Chang, and Hsing-Yu Tuan High-entropy transition metal disulfide colloid clusters: synergistic atomic scale interaction and interconnected network for ultra-stable potassium ion storage. ViewChemical Engineering Journal 2023, 469, 143932 (SCI, IF:15.1) |
113. |
Che-Bin Chang, Ying-Rui Lu, and Hsing-Yu Tuan High-entropy NaCl-type metal chalcogenides as K-ion storage materials: role of the cocktail effect. ViewEnergy Storage Materials 2023, 59, 10027 (SCI, IF:20.4) |
112. |
Wei-Wen Shen, Yi-Yen Hsieh and Hsing-Yu Tuan 3D space-confined Co0.85Se architecture with effective interfacial stress relaxation as anode material reveals robust and highly loading potassium-ion batteries. ViewJ. Colloid Interface Sci. 2023, 643, 626-639 (SCI, IF:9.9) |
111. |
Wei-Cheng Lin, Yi-Chun Yang and Hsing-Yu Tuan Electrochemical Self-Healing Nanocrystal Electrodes for Ultrastable Potassium-Ion Storage. View
Small
2023,
2300046 (SCI, IF:13.3) *被選為此期刊cover story
|
110. |
Jia-Zheng Yen, Che-Bin Chang, Kai-Siang Jhang, and Hsing-Yu Tuan Excellent Metal Phosphide Electrode for Potassium Ion Hybrid Capacitors: The Case of Carbon Nanotube-Wrapped AgP2. View
ACS
Appl. Energy Mater. 2023,
6, 822-831 (SCI, IF:6.4) |
109. |
Yan-Fu Huang, Yi-Chun Yang, Yen-Yang Tseng and Hsing-Yu Tuan Two dimensional MnPSe3 layer stacking composites with superior storage performance for alkali metal-ion batteries. View
|
108. |
Sheng-Feng Ho and Hsing-Yu Tuan
Cu3PS4: a sulfur-rich metal phosphosulfide with superior ionic
diffusion
|
107. |
Yan-Fu Huang, Yi-Chun Yang, and Hsing-Yu Tuan
Construction of strongly coupled few-layer FePSe3-CNT hybrids for
high
|
106. |
Yi-Yen Hsieh and Hsing-Yu Tuan Architectural van der Waals Bi2S3/Bi2Se3 topological heterostructure as a superior potassium-ion storage material. View
Energy Storage Materials
2022,
51, 789-805 (SCI, IF:20.4) |
105. |
Jia-Zheng Yen, Yi-Chun Yang, and Hsing-Yu Tuan Interface engineering of high entropy Oxide@Polyaniline heterojunction enables highly stable and excellent lithium ion storage performance. View
Chemical Engineering
Journal
2022,
450, 137924 (SCI, IF:15.1) |
104. |
Wei-Cheng Lin, Yi-Chun Yang, and Hsing-Yu Tuan
Ternary chalcogenide anodes for high-performance potassium-ion
batteries
|
103. |
Che-Bin Chang and Hsing-Yu Tuan Recent Progress Sb- and Bi-based Chalcogenide Anodes for Potassium-Ion Batteries. View
Chemistry—An Asian Journal
2022,
17, e202200170 (SCI, IF:4.1) |
102. |
Yi-Yen Hsieh and Hsing-Yu Tuan Recent progress and strategies on mixed-dimensional heterostructures for potassium-ion storages. View
Materials Today Sustainability
2022,
18, 100141 (SCI, IF:7.8) |
101. |
Sheng-Feng Ho, Yi-Chun Yang, and Hsing-Yu Tuan Silver boosts ultra-long cycle life for metal sulfide lithium-ion battery anodes: Taking AgSbS2 nanowires as an example. View
|
100. |
Chao-Hung Chang, Kuan-Ting Chen, Yi-Yen Hsieh, Che-Bin Chang, and Hsing-Yu Tuan Crystal facet and architecture engineering of Metal oxide nanonetwork anodes for high-performance potassium-ion batteries and hybrid capacitors. View
ACS Nano
2022,
16, 1486-1501 (SCI, IF:17.1) |
99. |
Che-Bin Chang, Kuan-Ting Chen and Hsing-Yu Tuan Large-scale synthesis of few-layered copper antimony sulfide nanosheets as electrode materials for high-rate potassium-ion storage. View
J.
Colloid Interface Sci. 2022,
608, 984-994 (SCI, IF:9.9) |
98. |
Kuan-Ting Chen, Yi-Chun Yang, Lian-Ming Lyu, Ming-Yen Lu, and Hsing-Yu Tuan In situ formed robust submicron-sized nanocrystalline aggregates enable highly-reversible potassium ion storage. View
Nano Energy 2021, 88, 106233 (SCI, IF:17.6) |
97. |
Kuan-Ting Chen, Yi-Chun Yang, Yuan-Hsing Yi, Xiang-Ting Zheng, Hsing-Yu Tuan A carbon ink for use in thin, conductive, non peelable, amphiphilic, antioxidant, and large-area current collector coating with enhanced lithium ion battery performance. View
J.
Colloid Interface Sci. 2021,
598, 155-165. (SCI, IF:9.9) |
96. |
Yi-Yen Hsieh, Kuan-Ting Chen, and Hsing-Yu Tuan* A synergetic SnSb-amorphous carbon composites prepared from polyesterification process as an ultrastable potassium-ion battery anode . View
|
95. |
Kuan-Ting Chen, Shaokun Chong, Lingling Yuan, Yi-Chun Yang, Hsing-Yu Tuan Conversion-alloying dual mechanism anode: Nitrogen-doped carbon-coated Bi2Se3 wrapped with graphene for superior potassium-ion storage. View
Energy Storage Materials 2021, 39, 239-249 (SCI, IF:20.4) |
94. |
Che-Bin Chang,† Chun-Yu Tsai,† Kuan-Ting Chen, and Hsing-Yu Tuan* Solution-Grown Phosphorus-Hyperdoped Silicon Nanowires/Carbon Nanotubes Bilayer Fabric as a High-performance Lithium-ion Battery Anode. View
ACS
Appl. Energy Mater. 2021, 4, 3160-3168 (SCI, IF:6.4) |
93. |
Chun-Yu Tsai,† Chao-Hung Chang,† Tzu-Lun Kao, Kuan-Ting Chen, Hsing-Yu Tuan Shape matters: SnP0.94 teardrop nanorods with boosted performance for potassium ion storage. View
Chemical Engineering
Journal 2021, 417, 128552 (SCI, IF:15.1) |
92. |
Xiang-Ting Zheng,† Kuan-Ting Chen, Yi-Yen Hsieh and Hsing-Yu Tuan. Ultrafine Antimony Nanocrystals/Phosphorus Pitaya-Like Nanocomposites as Anodes for High-Performance Sodium-Ion Batteries. View
ACS Sustainable Chem. Eng. 2020, 50, 18535-18544 (SCI, IF:8.4) |
91. |
Sheng-Bor Huang,† Yi-Yen Hsieh,† Kuan-Ting Chen and Hsing-Yu Tuan. Flexible nanostructured potassium-ion batteries. View
Chemical Engineering
Journal 2021, 416, 127697. (SCI, IF:15.1) |
90. |
Cheng-Ying Chan,† Chao-Hung Chang† and Hsing-Yu Tuan. Synthesis of raspberry-like antimony-platinum (SbPt) nanoparticles as highly active electrocatalysts for hydrogen evolution reaction. View
J.
Colloid Interface Sci. 2021, 584, 729-737. (SCI, IF:9.9) |
89. |
Hsuan-Peng Lin, Kuan-Ting Chen, Che-Bin Chang , Hsing-Yu Tuan. Aluminum phosphide as a high-performance lithium-ion battery anode. view
J. Power source, 2020, 465, 228262. (SCI, IF:9.2) |
88. |
Kuan-Ting Chen and
Hsing-Yu Tuan. Bi-Sb
Nanocrystals Embedded in phosphorus as high-performance potassium
ion battery electrode.
view
ACS NANO, 2020, 14, 11648-11661. (SCI, IF:17.1) |
87. |
Cheng-Ying Chan,†
Chao-Hung
Chang† and
Hsing-Yu Tuan.
Colloidal synthesis of porous red phosphorus nanoparticles as a
metal-free electrocatalyst for the hydrogen evolution reaction.
vi
Chemical Communications, 2020, 56, 2937-2940. (SCI, IF:4.9) |
86. |
Kuo-Lung Wang, Kuan-Ting Chen, Yuan-Hsing Yi, Yi-Hao Hung, Hsing-Yu Tuan and Masaki Horie. High-Performance Lithium Ion Batteries Combining Submicron Silicon and Thiophene-Terephthalic Acid-Conjugated Polymer Binders . view
ACS Sustainable Chem. Eng., 2020, 8, 1043-1049. (SCI, IF:8.4) |
85. |
Cheng-Chieh Chuang,† Yi-Yen Hsieh,† Wei-Chung Chang and Hsing-Yu Tuan. Phosphorus-sulfur/graphene composites as flexible lithium-sulfur battery cathodes with super high volumetric capacity. view
Chemical Engineering Journal,
2020,
387, 123904
(SCI, IF:15.1) |
84. |
Kuan-Ting Chen,
Wei-Chung Chang,
Shu-Chen Lu,
Po-Yuan Yang and
Hsing-Yu Tuan. Facile Synthesis of Cu Nanocrystals with Morphology Evolution from Transitional Truncated Octahedra to Octahedra. view
Journal of Nanomaterials, 2019, 2019,1-7. (SCI, IF:3.791) |
83. |
Kuan-Ting Chen,
Wei-Chung Chang,
Hong-Jie
Yang,
Chun-Yu
Tsai,
Sheng-Bor Huang and
Hsing-Yu Tuan. Free standing Si (Ge) nanowire/Cu nanowire composites as lithium ion battery anodes. view
Journal
of the Taiwan Institute of Chemical
Engineers, 2019, 104, 54-64.(SCI, IF:5.7) |
82. |
Cheng-Chieh Chuang, Hsun-Chen Chu, Sheng-Bor Huang, Wei-Shun
Chang
and
Hsing-Yu Tuan.
Laser-induced plasmonic heating in copper nanowire fabric as a
photothermal catalytic reactor.
view
Chemical Engineering Journal,
2019, 7 (SCI, IF:15.1) |
81. |
Suh-Ciuan Lim, Cheng-Ying Chan , Kuan-Ting Chen and Hsing-Yu Tuan.
The shape-controlled synthesis of gallium–palladium (GaPd2)
nanomaterials as high-performance electrocatalysts for the hydrogen
evolution reaction.
view
Nanoscale,
2019, 11, 8518–8527 (SCI,
IF:6.7) |
80. |
Jee-Yee Chen, Shao-Lou Jheng, Cheng-Ying Chan, Hsing-Yu Tuan.
Morphology controlled synthesis of Pd2Ge nanostructures
and their shape-dependent catalytic properties for hydrogen
evolution reaction.
International Journal of Hydrogen Energy
44 (2019) 12958-12970 (SCI,
IF:
7.2) |
79. |
Jee-Yee Chen, Suh-Ciuan Lim, Chun-Hong Kuo, Hsing-Yu Tuan.
Sub-1 nm PtSn ultrathin sheet as an extraordinary electrocatalyst
for methanol and ethanol oxidation reactions.
view
Journal of Colloid and Interface Science
545 (2019) 54–62 (SCI,
IF:9.9) |
78. |
Yu-Ju Chen, Yi-Rui Chen, Cheng-Hsuan Chiang, Kuo-Lun Tung,
Tsung-Kuang Yeh and Hsing-Yu Tuan. Monodisperse ordered
indium–palladium nanoparticles: synthesis and role of indium for
boosting superior electrocatalytic activity for ethanol oxidation
reaction. view |
77. |
Wei-Chung Chang, Jen-Hsuan Wu, Kuan-Ting Chen, and Hsing-Yu Tuan.
Red Phosphorus Potassium-Ion Battery Anodes.
view
Advanced Science,
2019, 6, 1801354
(SCI, IF:
15.1) |
76. |
Suh-Ciuan Lim, Cheng-Ying Chan, Kuan-Ting Chen, Hsing-Yu Tuan.
Synthesis of popcorn-shaped gallium-platinum (GaPt3)
nanoparticles as highly efficient and stable electrocatalysts for
hydrogen evolution reaction.
view
Electrochimica Acta
297 (2019) 288-296 (SCI, IF:
6.6) |
75. |
Wei-Chung
Chang, Shih-Pin Lu, Hsun-Chen Chu, and Hsing-Yu Tuan
Lithium-Ion Battery Anodes of Stacked Nanowire Laminate for
Ultrahigh Areal Capacities.
view
ACS Sustainable Chem. Eng. 2019, 7, 156−164
(SCI,
IF: 8.4) |
74. |
Suh-Ciuan
Lim, Ming-Cheng Hsiao , Ming-De Lu , Yung-Liang Tung and Hsing-Yu
Tuan. Synthesis of germanium–platinum nanoparticles as
high-performance catalysts for spray-deposited large-area
dye-sensitized solar cells (DSSC) and the hydrogen evolution
reaction (HER). |
73. |
Ching-Yu Wang, Yuan-Hsing Yi, Wei-Chung Chang, Tzu-Lun Kao, Hsing-Yu Tuan Multi-walled carbon nanotube-wrapped SiP2 as a superior anode
material for lithium-ion and sodium-ion batteries
view Journal of Power Sources, 2018,9,30 pp 49-58 (SCI, IF: 9.2) |
72. |
Suh-Ciuan Lim, Wen-Fu Lo, Po-Yuan Yang, Shu-Chen Lu, Anneli Joplin, Stephan Link, Wei-Shun Chang and Hsing-Yu Tuan Au@CdSe
heteroepitaxial nanorods: an example of metal
nanorods fully
covered by a semiconductor shell with strong photo-induced
interfacial charge transfer effects.
view Journal of Colloid and Interface Science, 2018,7,20 (SCI, IF:9.9) |
71. |
Kuan-Wei Tseng, Sheng-Bor Huang, Wei-Chung Chang and Hsing-Yu Tuan Synthesis of Mesoporous Germanium Phosphide Microspheres for
High-Performance Lithium-Ion and Sodium-Ion Battery Anodes.
view Chemistry of Materials, 2018,6,2 pp 4440-4447 (SCI, IF: 8.6) |
70. |
Jee-Yee Chen, Shao-Lou Jheng and Hsing-Yu Tuan Synthesis of nickel germanide (Ge12Ni19) nanoparticles for durable
hydrogen evolution reaction in acid solutions
view Nanoscale, 2018,5,14 pp 11072-11078 (SCI, IF: 6.7) |
69. |
Kuan-Chen Lin, Mei-Wei Lin, Mu-Nung Hsu, Guan Yu-Chen, Yu-Chan Chao, Hsing-Yu Tuan, Chi-Shiun Chiang and Yu-Chen Hu Graphene oxide sensitizes cancer cells to chemotherapeutics by
inducing early autophagy events, promoting nuclear trafficking and
necrosis
view Theranostics, 2018,3,28 vol.8, issue 9 (SCI, IF: 12.4) |
68. |
Chiu-Yen Wang , Fang-Wei Yuan , Yu-Chen Hung ,
Ya-Wen Su , Hsing-Yu Tuan In-situ TEM and XRD analysis of microstructures changes in
solution-grown copper silicide nanowires array for field emitters.
view Journal of Alloys and Compounds ,2018 pp 2373-2377 (SCI, IF: 6.2) |
67. |
Shao-Lou Jheng , Jee-yee Chen, Hsing-Yu Tuan. Solution-liquid-solid growth of CuInTe2 nanowires as lithium-ion
battery anodes.
view Materials and Design, 2018,3,27 (SCI, IF: 8.4) |
66. |
Chien-Ming Lai, Tzu-Lun Kao,
Hsing-Yu Tuan Si nanowires/Cu nanowires bilayer fabric as a lithium ion capacitor
anode with excellent performance.
view Journal of Power Sources, 2018,3,1 (SCI, IF: 9.2) |
65. |
Li-Chu Chin, Yuan-Hsing Yi, Wei-Chung Chang, Hsing-Yu Tuan. Significantly improved performance of red phosphorus
sodium-ion anodes with the addition of iron.
view Electrochimica Acta , 2017,12,15 (SCI, IF: 6.6) |
64. |
Tzu-Lun Kao and Hsing-Yu Tuan . Polymer-mediated metallophilic interactions for gram-scale production, high-yield
(~90%) synthesis of ultrathin bismuth nanowires.
view Chemical Communications, 2017,10,7 pp 12020--12023 (SCI, IF:4.9) |
63. |
Wei-Chung Chang, Tzu-Lun Kao, Yow Lin and Hsing-Yu Tuan. A Flexible all inorganic nanowire bilayer mesh as a
high-performance lithium-ion battery anode.
view Journal of Materials Chemistry A 2017,10,3 pp 22662–22671 (SCI, IF: 11.9) |
62. |
Hsun-Chen Chu, Hsing-Yu Tuan. High-performance
lithium-ion batteries with 1.5 mm thin copper nanowire foil as a
current collector.
view |
61. |
Suh-Ciuan Lim, Hsuan-Peng Lin, Wei-Lun Tsai, Hao-Wu Lin, Yao-Tsung Hsu and Hsing-Yu Tuan .
Binary halide, ternary perovskite-like, and perovskite-derivative
nanostructures: hot injection synthesis and optical and
photocatalytic properties.
view |
60. |
Jee-Yee Chen , Li-Chu Chin , Guo-An Li and Hsing-Yu Tuan. Zinc diphosphide nanowires:
bismuth nanocrystal-seeded growth and their use as high-capacity
lithium ion battery anodes.view |
59. |
Wei-Chung Chang, Kuan-Wei Tseng, and Hsing-Yu Tuan. Solution Synthesis of
Iodine-Doped Red Phosphorus Nanoparticles for Lithium-Ion Battery
Anodes. view |
58. |
Meng-Hsun Hsieh, Guo-An Li, Wei-Chung Chang and Hsing-Yu Tuan. A
Germanium nanoparticles/molybdenum
disulphide (MoS2) nanocomposite as a high-capacity, high-rate anode
material for lithium-ion batteries.
view |
57. |
Guo-An Li, Wei-Chin Li, Wei-Chung Chang and Hsing-Yu Tuan. Solution-grown GeO2 nanoparticles with a nearly 100% yield as lithium-ion battery
anodes. view |
56. |
Guo-An Li, Chiu-Yen Wang, Wei-Chung Chang, Hsing-Yu Tuan. Phosphorus-Rich Copper Phosphide Nanowires for Field-Effect Transistors and Lithium-Ion
Batteries.
view |
55. |
Tzu-Lun Kao, Wei-Hsiang Huang, Hsing-Yu Tuan. Kerf loss silicon as a
cost-effective, high-efficiency, and convenient energy carrier:
additive mediated rapid hydrogen production and integrated systems
for electricity generation and hydrogen storage.
view |
54. |
Hsun-Chen Chu, Yen-Chen Chang,
Yow Lin, Shu-Hao Chang, Wei-Chung Chang, Guo-An Li, and Hsing-Yu
Tuan. Spray-deposited Largearea Copper Nanowire
Transparent Conductive Electrodes and their uses for Touch Screen
Applications.
view ACS Applied Materials & Interfaces, 2016, 5, 4 (SCI, IF: 10.383) |
53. |
Wei-Hsiang Huang,Tzu-Lun
Gao,Chun-Wei Huang, Chia-Fu Chang, Wen-Wei Wu and Hsing-Yu Tuan. Synthesis of single-crystalline Ge1Sb2Te4 nanoplates in
solution phase.
view CrystEngComm, 2016, 12, 2 (SCI, IF: 3.1) |
52. |
Kuei-Chang Li, Hsun-Chen Chu,
Yow Lin, Hsing-Yu Tuan, and Yu-Chen Hu.
PEGylated Copper Nanowires as a Novel Photothermal Therapy Agent. view ACS applied Materials & Interfaces, 2016, 3, 25 (SCI, IF: 10.383) |
51. |
Hsieh-Yu Li, Guo-An Li, Yun-Yang
Lee, Hsing-Yu Tuan, Ying-Ling Liu. A Thermally Stable, Combustion-Resistant, and Highly Ion-Conductive Separator for Lithium-Ion Batteries Based on Electrospun Fiber Mats of Crosslinked Polybenzoxazine. View Energy technology, 2016, 1,15 (SCI, IF: 3.8) |
50. |
Daniel J Klionskyb, Kotb
Abdelmohsen,.. Hsing-Yu Tuan, et al.. Guidelines for the use and
interpretation of assays for monitoring autophagy .
view Autophagy, 2016, 1 (SCI, IF: 13.3) |
49. |
|
48. |
|
47. |
|
46. |
Guan-Yu Chen, Chia-Le Meng, Kuan-Chen Lin,
Hsing-Yu Tuan, Hong-Jie Yang, Chiu-Ling Chen, Kuei-Chang Li, Chi-Shiun
Chiang, Yu-Chen Hu. Graphene oxide as a chemosensitizer: Diverted
autophagic flux, enhanced nuclear import, elevated necrosis and
improved antitumor effects.
view Biomaterials, 2014, 11, 7 (SCI, IF: 14.0) |
45. |
Hong-Jie Yang and Hsing-Yu
Tuan. Efficient and Scalable Synthesis of Quantum Dots Using Hexane
as The Solvent in a Non-Microfluidic Flow Reactor System.view RSC Advances, 2014, 9, 16 (SCI IF: 3.9) |
44. |
Shu-Hao Chang , Yu-Tung
Tsai , Guo-An Li , Shao-Lou Jheng , Tzu-Lun Kao and Hsing-Yu Tuan.
Uniform silica coating of isoprene-passivated germanium nanowires
via Stober Method.view RSC Advances, 2014, 8, 26 (SCI IF: 3.9) |
43. |
Hong-Jie Yang, Sheng-Yan He, and Hsing-Yu
Tuan. Simultaneous axial screw dislocation mediated growth and
radial layer-by-layer deposition for controlled synthesis of
asymmetric axial ZnO nanospindles.view Nanoscale, 2014, 6, 9034-9042 (SCI IF: 6.7) |
42. |
Fang-Wei Yuan and Hsing-Yu Tuan. Scalable
Solution-Grown High Germanium Nanoparticle Loading Graphene
Nanocomposites as High-Performance Lithium Ion Battery Electrodes:
An Example of Graphene-Based Platform towards Practical Full Cell
Applications. view Chemistry of Materials, 2014, 26 (6), pp 2172–2179 (SCI IF: 8.6) |
41. |
Hong-Jie Yang, Sheng-Yan He, Hsin-Lung Chen,
and Hsing-Yu Tuan. Monodisperse Copper Nanocubes: Synthesis,
Self-Assembly, and Large-Area Dense-Packed Films. view Chemistry of Materials, 2014, 26 (5), pp 1785–1793 (SCI IF: 8.6) |
40. |
Guan-Yu Chen, Chiu-Ling Chen, Hsin-Yu Tuan,
Pei-Xiang Yuan, Kuei-Chang Li, Hong-Jie,Yang and Yu-Chen Hu.
Graphene Oxide As a Toll-like Receptor/Autophagy Regulator and
Antitumor Agent. Advanced Healthcare Materials, 2014, 3 (SCI IF: 10.0) |
39. |
Shu-Hao Chang, Bo-Cheng Chiu, Tzu-Lun
Gao,Shao-Lou Jheng, and Hsing-Yu Tuan. Selective Synthesis of Copper
Gallium Sulfide (CuGaS2) Nanostructures of Different Sizes, Crystal
Phases, and Morphologies. view CrystEngComm, 2014, 16, 3323-3330 (SCI IF: 3.1) |
38. |
Hong-Jie Yang, Sheng-Yan He, and Hsing-Yu
Tuan. Self-Seeded Growth of Five-Fold Twinned Copper Nanowires:
Mechanistic Study, Characterization, and SERS Applications. view Langmuir, 2014, 30, 602 (SCI IF: 3.9) |
37. |
段興宇、張恕豪.
銅銦鎵硒奈米粒子之合成與其於太陽能電池之應用。 化工技術, 2014.年, 四月號。 |
36. |
張維中、段興宇.
一維奈米結構之超臨界流體製程及應用。 化工技術, 2014年,二月號,98-117頁。 |
35. |
Hong-Jie Yang, Chia-Yu Chen, Fang-Wei Yuan,
and Hsing-Yu Tuan. Designed Synthesis of Solid and Hollow Cu2-xTe
Nanocrystals with Tunable Near-Infrared Localized Surface Plasmon
Resonance.view Journal of Physical Chemistry C, 2013, 117, 21955 (SCI IF: 3.7) |
34. |
Shu-Hao Chang, Ming-De Lu, Yung-Liang Tung,
and Hsing-Yu Tuan. Gram-Scale Synthesis of Catalytic Co9S8
Nanocrystal Ink as a Cathode Material for Spray-Deposited,
Large-Area Dye-Sensitized Solar Cells.view ACS Nano, 2013, 7, 9443 (SCI IF: 17.1) |
33. |
Jianshi Tang, Chiu-Yen Wang, Li-Te Chang,
Yabin Fan, Tianxiao Nie, Michael Chan, Wanjun Jiang, Yu-Ting Chen,
Hong-Jie Yang, Hsing-Yu Tuan, Lih-Juann Chen, and Kang L. Wang.
Electrical Spin Injection and Detection in Mn5Ge3/Ge/Mn5Ge3 Nanowire
Transistors.view Nano Letters, 2013, 13, 4036 (SCI IF: 10.8) |
32. |
Fang-Wei Yuan, Chiu-Yen Wang, Guo-An Li,
Shu-Hao Chang, Li-Wei Chu, Lih J Chen and Hsing-Yu Tuan.
Solution-Phase Synthesis of Single-Crystal Cu3Si Nanowire Arrays on
Diverse Substrates with Dual Functions as High-Performance Field
Emitters and Efficient Anti-Reflective Layers.
view Nanoscale, 2013, 5, 9875 (SCI IF: 6.7) |
31. |
Yu-Ting Yen, Yi-Kai Lin, Shu-Hao Chang, Hwen-Fen
Hong, Hsing-Yu Tuan and Yu-Lun Chueh. Investigation of bulk hybrid
heterojunction solar cells based on Cu(In,Ga)Se2 nanocrystals.
view Nanoscale Research Letters, 2013, 8:329 (SCI IF: 5.418) |
30. |
Chih-chung Lai, Yi-Kai Lina, Fang-Wei Yuan,
Hsing-Yu Tuan and Yu-Lun Chueh. High-Density Germanium Nanowire
Arrays via Supercritical Fluid-Liquid-Solid Growth in Porous Alumina
Templates.
view ECS Solid State Letters, 2013 , 2 (7) P55-P57 (SCI IF: 1.184) |
29. |
Manisha Kondiba Datea, Bo-Cheng Chiu,
Chin-Hung Liu, Yu-Ze Chen, Yi-Chung Wang, Hsing-Yu Tuan, Yu-Lun
Chueh, Fabrication of vertically aligned CuInSe2 nanorod arrays by
template-assisted mechanical approach.
view Materials Chemistry and Physics, 2013, 138, 5 (SCI IF: 4.6) |
28. |
Jianshi Tang, Chiu-Yen Wang, Wanjun Jiang,
Li-Te Chang, Yabin Fan, Michael Chan, Can Wu, Min-Hsiu Hung, Pei-Hsuan
Liu, Hong-Jie Yang, Hsing-Yu Tuan, Lih-Juann Chen, and Kang L. Wang,
Electrical Probing of Magnetic Phase Transition and Domain Wall
Motion in Single-Crystalline Mn5Ge3 Nanowire.
view
Nano Letters, 2012, 12, 6372 (SCI IF: 10.8) |
27. |
Fang-Wei Yuan, Hong-Jie Yang, and Hsing-Yu
Tuan, Alkanethiol-Passivated Germanium Nanowires as High-Performance
Anode Materials for Lithium-Ion Batteries: The Role of Chemical
Surface Functionalization.
view ACS Nano, 2012, 6, 9932 (SCI IF: 17.1) |
26. |
D. W.-P. Pang, F.-W. Yuan,Y.-C. Chang, G.-A.
Li and H.-Y. Tuan Generalized syntheses of nanocrystal–graphene
hybrids in high-boiling-point organic solvents.
view Nanoscale, 2012, 4, 4562 (SCI IF: 6.7) |
25. |
G.-Y. Chen, H.-J. Yang, C.-H. Lu, Y.-C. Chao,
S.-M. H., C.-L. Chen, K.-W. Lo, L.-Y. Sung, W.-Y. Luo, H.-Y. Tuan,
and Y.-C. Hu Simultaneous induction of autophagy and toll-like
receptor signaling pathways by graphene oxide.
view Biomaterials, 2012, 33, 6559-6569 (SCI IF: 14.0) |
24. |
J. Tang, C.-Y. Wang, M.-H. Hung,X. Jiang,
L.-T. Chang, L. H., P.-H. Liu, H.-J. Yang, H.-Y. Tuan, L.-J. Chen,
and K. Wang, Ferromagnetic Germanide in Ge Nanowire Transistors for
Spintronics Application.
view ACS Nano, 2012, 6 (6), 5710–5717 (SCI IF: 17.1) |
23. |
J.-L. Wu, F.-C. Chen, S.-H. Chang, K.-S. Tan,
and H.-Y. Tuan Upconversion Nanocrystals for Near-Infrared
Laser–Driven Polymer Photovoltaic Devices.view
Organic Electronics, 13, 2104-2108 (SCI IF: 3.2) |
22. |
W.-C. Huang, C.-H. Tseng, S.-H. Chang, H.-Y.
Tuan, C.-C. Chiang, L.-M. Lyu, M. Huang, Solvothermal Synthesis of
Zincblende and Wurtzite CuInS2 Nanocrystals and Their Photovoltaic
Application.view Langmuir, 2012, 28 (22), 8496–8501 (SCI IF: 3.9) |
21. |
H.-J. Yang,
H.-Y. Tuan,
High-yield, high-throughput synthesis of germanium nanowires by
metal-organic chemical vapor deposition and their functionalization and
applications.view Journal of Materials Chemistry, 2012, 22, 2215-2225 (SCI IF: 6.626) (Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 25, Issue 4, 2012) |
20. |
G.-Y. Chen, D. W.-P.Pang, S.-M.Hwang,
H.-Y.Tuan, and Y.-C. Hu, 2011, Agraphene-based platform for induced pluripotent
stem cells culture and differentiation.view
Biomaterials, 2012, 33(2), 418-427 (SCI IF: 14.0) |
19. |
S.-H. Chang, M.-Y.Chiang, C.-C.Chiang, F.-W.Yuan, C.-Y.Chen, B.-Y.Chiu, T.-L.Kao, C.-H.Lai,
H.-Y. Tuan,
2011, Facile colloidal synthesis of quinary CuIn1-xGax(SySe1-y)2 (CIGSSe) nanocrystal inks with tunable band gaps for use in low-cost photovoltaics.view Energy & Environmental Science, 2011, 4, 4929-4932 (SCI IF: 32.5) |
18. |
F.-W. Yuan, H.-J.Yang and
H.-Y. Tuan, 2011, Seeded silicon nanowire growth catalyzed by commercially available bulk metals: broad selection of metal catalysts, superior field emission performance, and versatile nanowire/metal
architectures.view
Journal of Materials Chemistry, 21(36),13793-13800 (SCI IF:6.626) *被選為此期刊封面故事 *列為Hot 文章 *選為Highlight文章 |
17. |
S.-C. Tang, Y.-Y. Fu, W.-F.
Lo, T.-E. Hua, and
H.-Y. Tuan, 2010, Vascular
labeling of luminescent gold nanorods enables 3-D microscopy of
mouse intestinal capillaries.view
ACS Nano, 4(10), 6278-6284 (SCI IF: 17.1) |
16. |
M.-Y. Chiang, S.-H. Chang, C.-Y. Chen, F.-W. Yuan, and
H.-Y. Tuan, 2011, Quaternary
CuIn(S1-xSex)2 nanocrystals: facile
heating-up synthesis, band gap tuning, and gram-scale production.view
Journal of Physical Chemistry C,115(5), 1592-1599 (SCI IF: 3.7) |
15. |
J.-S. Tang, C.-Y. Wang, F. Xiu, A.-J. Hong, S.-Y. Chen, M.-S., Wang, C. Zeng, H.-J. Yang,
H.-Y.Tuan, L. J. Chen, and K. L. Wang, 2010, Single-crystalline Ni2Ge/Ge/Ni2Ge Nanowire
Heterostructure Transistors.view
Nanotechnology, 21(50), 505704 (SCI IF: 3.5) |
14. |
F.-W. Yuan and H.-Y.
Tuan, 2010, Supercritical fluid-solid growth of single crystalline siliconnanowires:
an example of metal-free growth in an organic solvent.view
Crystal Growth & Design, 10(11), 4741-4745 (SCI IF: 3.8) |
13. |
H.-J. Yang, F.-W. Yuan, and
H.-Y. Tuan, 2010, Vapor-liquid-solid growth of silicon nanowires using organosilane
as precursor.view
Chemical Communications, 46, 6105-6107 (SCI IF: 4.9) |
12. |
H.-Y. Hsu, H.-H. Hsieh,
H.-Y. Tuan, J.-L. Hwang, 2010, Oxidized Low density polyethylene: a potential cost-effective, stable, and recyclable polymeric encapsulant
for photovoltaic modules.view
Solar Energy Materials and Solar Cells. 94 (6), 955-959 (SCI IF: 6.9) |
11. |
Y.-L. Chen,
H.-Y. Tuan, C.-W. Tien, W.-H., Lo, H.-C. Liang, Y.-C Hu, 2009, Augmented biosynthesis of cadmium sulfide nanoparticles by enetically engineered Escherichia coli.view Biotechnology Progress 25 (5), 1260-1266 (SCI IF: 2.9) |
10. |
X. Lu,
H.-Y. Tuan, B.A. Korgel, Y. Xia, 2008, Facile Synthesis of gold nanoparticles with narrow size distribution by using AuCl or AuBr
as the precursor.view
CHEMISTRY-A EUROPEAN JOURNAL 14(5), 1584-1591 (SCI IF: 4.3) |
9. |
X. Lu, M. Yavuz,
H.-Y. Tuan, B.A. Korgel, Y. Xia, 2008, Ultrathin Gold Nanowires Can Be Obtained by Reducing PolymericStrands of Oleylamine-AuCl Complexes Formed via Aurophilic
Interaction.view
Journal of the American Chemical Society 130(28), 8900-8901 (SCI IF: 15) |
8. |
H.-Y. Tuan and B.A. Korgel, 2008, Aligned Arrays of Te Nanorods Grown from the Faceted Surfaces of Colloidal GeTe
Particles.view Crystal Growth & Design. 8(7), 2555-2561 (SCI IF: 3.8) |
7. |
A.T. Heitsch, D.D. Fanfair,
H.-Y. Tuan, and B.A. Korgel, 2008, Solution-liquid-solid (SLS) growth of silicon nanowires.view Journal of the American Chemical Society 130(16), 5436-5437 (SCI IF: 15) |
6. |
H.-Y. Tuan, A. Ghezelbash, and B.A. Korgel, 2008, Silicon nanowires and Silica nanotubes Seeded by copper nanoparticles
in an organic solvent.view Chemistry of Materials, 20(6), 2306-2313 (SCI IF: 8.6) |
5. |
H.-Y. Tuan and B.A. Korgel, 2008, Importance of Solvent-Mediated Phenylsilane Decomposition Kinetics for High Yield Solution Phase Silicon Nanowire
Synthesis.view Chemistry of Materials, 20(4), 1239-1241 (SCI IF: 8.6) |
4. |
X. Lu,
H.-Y. Tuan, J. Chen, Z.Y. Li, B.A. Korgel,
and Y. Xia, 2007, Mechanistic Studies on Galvanic Replacement
Reaction between Multiply Twinned Particles of Ag and HAuCl4 in an
Organic Medium.view Journal of the American Chemical Society, 129(6), 1733-1742 (SCI IF: 15) |
3. |
H.-Y. Tuan, D.C. Lee and B.A. Korgel, 2006, Nanocrystal-Mediated Crystallization of Silicon and Germanium Nanowires
in Organic Solvents: The Role of Catalysis and Solid-Phase Seeding. view Angewandte Chemie International Edition. 45(31), 5184-5187 (SCI IF: 16.6) |
2. |
H.-Y. Tuan, D.C. Lee, T. Hanrath and B.A. Korgel, 2005, Germanium Nanowire Synthesis: An Example of Solid-Phase Seeded Growth with Nickel Nanocrystals. view Chemistry of Materials.17(23), 5705-5711 (SCI IF: 8.6) |
1. |
H.-Y. Tuan, D.C. Lee, T. Hanrath and B.A. Korgel, 2005, Catalytic Solid-Phase Seeding of Silicon Nanowires by Nickel Nanocrystals
in Organic Solvents. view Nano Letters, 5(4), 681-684. (SCI IF: 10.8) |