(124) Chun-Wen
Tsao, Sudhakar Narra, Jui-Cheng Kao, Yu-Chang Lin, Chun-Yi Chen,
Yu-Cheng Chin, Ze-Jiung Huang, Wei-Hong Huang, Chih-Chia Huang,
Chih-Wei Luo, Jyh-Pin Chou, Shigenobu Ogata, Masato Sone, Michael H.
Huang, Tso-Fu Mark Chang*, Yu-Chieh Lo*, Yan-Gu Lin*, Eric Wei-Guang
Diau*, Yung-Jung Hsu*, "Dual-plasmonic Au@Cu7S4 yolk@shell
nanocrystals for photocatalytic hydrogen production across visible to
near infrared spectral region", Nature Communications2024, 15, 413.
(123) Chien-Yi
Wang, Huai-En Chang, Cheng-Yu Wang*, Tomoyuki Kurioka*, Chun-Yi Chen,
Tso-Fu Mark Chang, Masato Sone, Yung-Jung Hsu*, "Manipulation of
interfacial charge dynamics for metal–organic frameworks toward
advanced photocatalytic applications", Nanoscale Advances2024, DOI: 10.1039/D3NA00837A (Invited Minireview; selected as Outside Front Cover).
(122) Jhen-Yang
Wu, Yi-An Chen, Yu-An Chien, Tomoyuki Kurioka, Masato Sone, Chun-Yi
Chen*, Tso-Fu Mark Chang*, Yung-Jung Hsu*, "Photocatalytic Fibers for
Environmental Purification: Challenges and Opportunities in the
Post-Pandemic Era", Advanced Energy and Sustainability Research2023, DOI: 10.1002/aesr.202300212 (Invited Perspective).
(121) Jing-Ping
Chang, Chien-Yi Wang, Yung-Jung Hsu*, Cheng-Yu Wang*, "Cu2O/UiO-66-NH2
composite photocatalysts for efficient hydrogen production from ammonia
borane hydrolysis", Applied Catalysis A: General2023, 650, 119005.
(120) Jyoti
Rohilla, Ting-Hsuan Lai, Chien-Yi Wang, Chun-Wen Tsao, Soniya Gahlawat,
Yung-Jung Hsu*, Pravin P. Ingole*, "Mechanistic insights into the
origin of MnOx co-catalysts for the improved photoelectrochemical
properties of Fe2O3", Journal of Photochemistry & Photobiology A: Chemistry2023, 440, 114649.
(114) Truong-Giang
Vo, Giang-Son Tran, Chao-Lung Chiang, Yan-Gu Lin, Huai-En Chang,
Hsuan-Hung Kuo, Chia-Ying Chiang*, Yung-Jung Hsu*, "Au@NiSx Yolk@Shell
Nanostructures as Dual-Functional Electrocatalysts for Concomitant
Production of Value-added Tartronic Acid and Hydrogen Fuel", Adv. Func. Mater.2023, 33, 2209386 (Selected as Inside Front Cover).
(113) Tzu-En
Lin*, Ming-Chun Chien, Po-Feng Chen, Pei-Wen Yang, Huai-En Chang,
Ding-Han Wang, Tung-Yi Lin, Yung-Jung Hsu, "A Sensor-Integrated Face
Mask Using Au@SnO2 Nanoparticle Modified Fibers and Augmented Reality
Technology", ACS Omega2022, 7, 42233-42241.
(112) Ting-Hsuan
Lai, Chun-Wen Tsao, Mei-Jing Fang, Jhen-Yang Wu, Yu-Peng Chang,
Yi-Hsuan Chiu, Ping-Yen Hsieh, Ming-Yu Kuo, Kao-Der Chang, Yung-Jung
Hsu*, "Au@Cu2O Core-Shell and Au@Cu2Se Yolk-Shell Nanocrystals as
Promising Photocatalysts in Photoelectrochemical Water Splitting
and Photocatalytic Hydrogen Production", ACS Appl. Mater. Interfaces. 2022, 14, 40771-40783.
(111) Jhen-Yang
Wu, Ting-Hsuan Lai, Mei-Jing Fang, Jui-Yuan Chen, Ming-Yu Kuo, Yi-Hsuan
Chiu, Ping-Yen Hsieh, Chun-Wen Tsao, Huai-En Chang, Yu-Peng Chang,
Chien-Yi Wang, Chun-Yi Chen, Masato Sone, Wen-Wei Wu, Tso-Fu Mark
Chang,* Yung-Jung Hsu*, "Electronic Interactions and Charge-Transfer
Dynamics for a Series of Yolk-Shell Nanocrystals: Implications for
Photocatalysis", ACS Appl. Nano Mater. 2022, 5, 8404-8416. (featured as the ACS Editors' Choice; selected as the Supplementary Cover story)
(110) Shan-Jen
Yang, Yin-Kai Lin, Ying-Chih Pu*, Yung-Jung Hsu*, "Crystal Facet
Dependent Energy Band Structures of Polyhedral Cu2O Nanocrystals and
Their Application in Solar Fuel Production", J. Phys. Chem. Lett.2022, 13, 6298-6305.
(109) Hyun
Sik Moon, Kai-Chi Hsiao, Ming-Chung Wu, Yongju Yun, Yung-Jung Hsu,
Kijung Yong*, "Spatial Separation of Cocatalysts on Z-Scheme
Organic/Inorganic Heterostructure Hollow Spheres for Enhanced
Photocatalytic H2 Evolution and In-Depth Analysis of the
Charge-Transfer Mechanism", Adv. Mater.2022, 2200172.
(104)Ming-Yu Kuo, Natalia Spitha, Matthew
P. Hautzinger, Pei-Lun Hsieh, Jing Li, Dongxu Pan, Yuzhou Zhao, Lih-Juann Chen,
Michael H. Huang, Song Jin*, Yung-Jung Hsu*, John C. Wright*, “Distinct Carrier
Transport Properties Across Horizontally vs Vertically Oriented
Heterostructures of 2D/3D Perovskites”, Journal of the American Chemical Society 2021, 143, 4969-4978.
(103) Yi-An
Chen, Yu-Ting Wang, Hyun Sik Moon, Kijung Yong, Yung-Jung Hsu*,
"Yolk-shell nanostructures: synthesis, photocatalysis and interfacial
charge dynamics", RSC Advances2021, 11, 12288-12305 (Invited Review; selected as themed collections of Photocatalysis).
(102) Chun-Wen Tsao, Mei-Jing Fang, Yung-Jung
Hsu*, “Modulation of interfacial charge dynamics of semiconductor
heterostructures for advanced photocatalytic applications”, Coordination Chemistry Reviews2021,
438, 213876 (Invited Review).
(100) Ting-Hsuan Lai, Ken-ichi Katsumata, Yung-Jung Hsu*, "In situ charge
carrier dynamics of semiconductor nanostructures for advanced
photoelectrochemical and photocatalytic applications", Nanophotonics2021, 10, 777-795 (Invited Review).
(99)
Ping-Yen Hsieh, Jhen-Yang Wu, Tso-Fu Mark Chang*, Chun-Yi Chen*, Masato
Sone, Yung-Jung Hsu*, "Near infrared-driven photoelectrochemical water splitting: Review and future prospects", Arabian Journal of Chemistry2020, 13, 8372-8387 (Invited Review).
(98)
Wei-Chen Hu, Yi-An Chen, Ping-Yen Hsieh, Chun-Wen Tsao, Yi-Hsuan Chiu,
Tso-Fu Mark Chang, Chun-Yi Chen, Masato Sone, Yung-Jung Hsu*, "Reduced
graphene oxides-wrapped ZnO with notable photocatalytic property", Journal of the Taiwan Institute of Chemical Engineers2020, 112, 337-344.
(97) Kai-An Tsai, Ping-Yen Hsieh, Ting-Hsuan Lai,
Chun-Wen Tsao, Hui Pan, Yan-Gu Lin*, Yung-Jung Hsu*, “Nitrogen-Doped
Graphene Quantum Dots for Remarkable Solar Hydrogen Production”, ACS Applied Energy Materials2020, 3, 5322-5332.
(96) Yi-Hsuan Chiu, Sarah A. Lindley, Chun-Wen
Tsao, Ming-Yu Kuo, Jason K. Cooper, Yung-Jung Hsu*, Jin Z. Zhang*, “Hollow
Au Nanosphere-Cu2O Core-Shell Nanostructures with Controllable Core Surface
Morphology”, Journal of Physical Chemistry C2020, 124, 11333-11339.
(95) Ping-Yen Hsieh, Tatsuya Kameyama, Takayuki
Takiyama, Ko Masuoka, Takahisa Yamamoto, Yung-Jung Hsu*, Tsukasa
Torimoto*, “Controlling the visible-light driven photocatalytic activity of
alloyed ZnSe-AgInSe2 quantum dots for hydrogen production”, Journal of Materials Chemistry A2020, 8, 13142-13149.
(94)Yung-Shan
Chang, Ping-Yen Hsieh, Tso-Fu Mark Chang, Chun-Yi Chen, Masato Sone, Yung-Jung
Hsu*, “Incorporating graphene quantum dots to enhance the photoactivity of
CdSe-sensitized TiO2 nanorods for solar hydrogen production”, Journal of Materials Chemistry A2020, 8, 13971-13979 (selected as the Back Cover story).
(92) Sara
Bonabi Naghadeh, Som Sarang, Amanda Brewer, A’Lester Allen, Yi-Hsuan
Chiu, Yung-Jung Hsu, Jhen-Yang Wu, Sayantani Ghosh, Jin Z. Zhang,
"Size and temperature dependence of photoluminescence of hybrid
perovskite nanocrystals", Journal of Chemical Physics 2019, 151, 154705.
(91) Ying
Liu, Yung-Shan Chang, Yung-Jung Hsu, Bing-Joe Hwang, Chun-Hway Hsueh*,
"Fabrication of WO3 photoanode decorated with Au nanoplates and its
enhanced photoelectrochemical properties", Electrochimica Acta2019, 321, 134674.
(90) Yi-Hsuan
Chiu, Ting-Hsuan Lai, Ming-Yu Kuo, Ping-Yen Hsieh, Yung-Jung Hsu*,
"Photoelectrochemical Cells for Solar Hydrogen Production: Challenges
and Opportunities", APL Materials2019, 7, 080901 (Invited Perspective, selected as Featured Article).
(89) Wan-Ting
Chiu*, Yi-Hsuan Chiu, Ping-Yen Hsieh, Tso-Fu Mark Chang, Masato Sone,
Yung-Jung Hsu, Agnès Tixier-Mita, Hiroshi Toshiyoshi,
"Nano-Au catalysts modified with TiO2: Enhancement of electrocatalytic
activity for 1-propanol oxidation in alkaline media", Journal of The
Electrochemical Society2019, 166, F760-F767.
(88) Ya-Hsuan
Lin, Jui-Yuan Chen*, Fu-Chun Chen, Ming-Yu Kuo, Yung-Jung Hsu, Wen-Wei
Wu*, "In Situ Analysis of Growth Behaviors of Cu2O Nanocubes in Liquid
Cell Transmission Electron Microscopy", Analytical Chemistry2019, 91 9665-9672.
(87)
Pei-Lun Hsieh, Gollapally Naresh, Yu-Sheng Huang, Chun-Wen Tsao,
Yung-Jung Hsu, Lih-Juann Chen*, Michael H. Huang*, "Shape-Tunable
SrTiO3 Crystals Revealing Facet-Dependent Optical and Photocatalytic
Properties", Journal of Physical Chemistry C2019, 123, 13664-13671.
(86) Yi-Hsuan
Chiu, Sara Bonabi Naghadeh, Sarah A. Lindley, Ting-Hsuan Lai, Ming-Yu
Kuo, Kao-Der Chang, Jin Z. Zhang*, Yung-Jung Hsu*, "Yolk-shell
nanostructures as an emerging photocatalyst paradigm for solar hydrogen
generation", Nano Energy2019, 62, 289-298.
(85) Yi-Hsuan Chiu, Tso-Fu Mark Chang*, Chun-Yi Chen*, Masato Sone, Yung-Jung Hsu*, "Mechanistic Insights into Photodegradation of Organic Dyes Using Heterostructure Photocatalysts", Catalysts2019, 9, 430 (Invited Review; selected as Editor's Choice paper; selected as Catalysts 2021 Best Paper Award).
(84) Fu-Chun Chen, Jui-Yuan Chen, Ya-Hsuan Lin, Ming-Yu Kuo, Yung-Jung Hsu, Wen-Wei Wu*,
"In Situ TEM Observation of Au-Cu2O Core-Shell Growth in Liquid", Nanoscale 2019, 11, 10486-10492.
(83) Mingqing
Wang, Yung-Shan Chang, Chun-Wen Tsao, Mei-Jing Fang, Yung-Jung Hsu*,
Kwang-Leong Choy*,
"Enhanced Photoelectrochemical Hydrogen Generation in Neutral
Electrolyte using Non-vacuum Processed CIGS Photocathodes with Earth
Abundant Cobalt Sulfide Catalyst", Chemical Communications 2019, 55, 2465-2468.
(82)
Jing-Mei Li*, Chi-Chang Hu*, Tzu-Ho Wu, Yung-Jung Hsu, "Electroless
deposition of RuO2-based nanoparticles for energy conversion
applications", RSC Advances, 2019, 9, 4239-4245.
(81)
Gollapally Naresh, Pei-Lun Hsieh, Vandana Meena, Shih-Kuang Lee,
Yi-Hsuan Chiu, Mahesh Madasu, An-Ting Lee, Hsin-Yi Tsai, Ting-Hsuan
Lai, Yung-Jung Hsu, Yu-Chieh Lo*, Michael H. Huang*,
"Facet-Dependent Photocatalytic Behaviors of ZnS-Decorated Cu2O
Polyhedra Arising from Tunable Interfacial Band Alignment", ACS
Applied Materials & Interfaces2019, 11, 3582-3589.
(80) Ping-Yen
Hsieh, Yi-Hsuan Chiu, Ting-Hsuan Lai, Mei-Jing Fang, Yu-Ting
Wang, Yung-Jung Hsu*, "TiO2 Nanowires-Supported Sulfides Hybrid
Photocatalysts for Durable Solar Hydrogen Production", ACS
Applied Materials & Interfaces2019, 11, 3006-3015. (selected as the Supplementary Cover story)
(77) Ying-Chih
Pu*, Wei-Ta Chen, Mei-Jing Fang, Yu-Lin Chen, Kai-An Tsai, Wei-Hao Lin,
Yung-Jung Hsu*, "Au-Cd1-xZnxS core-alloyed shell nanocrystals: boosting
the interfacial charge dynamics by adjusting the shell
composition", Journal of Materials Chemistry A2018, 6, 17503-17513.
(76) Le
Thi Quynh, Chien Nguyen Van, W. Y. Tzeng, Chun-Wei Huang, Yu-Hong Lai,
Jhih-Wei Chen, Kai-An Tsai, Chung Lin Wu, Wen-Wei Wu , Chih Wei Luo,
Yung-Jung Hsu, and Ying-Hao Chu*, "Flexible Heteroepitaxy
Photoelectrode for Photo-electrochemical Water Splitting", ACS Applied Energy Materials2018, 1, 3900-3907.
(75)
Yi-Hsuan Chiu, Ting-Hsuan Lai, Chun-Yi Chen*, Ping-Yen Hsieh, Kazunari
Ozasa, Mitsuo Niinomi, Kiyoshi Okada, Tso-Fu Mark Chang*, Nobuhiro
Matsushita, Masato Sone, Yung-Jung Hsu*, "Fully Depleted Ti-Nb-Ta-Zr-O
Nanotubes: Interfacial Charge Dynamics and Solar Hydrogen Production", ACS
Applied Materials & Interfaces2018, 10, 22997-23008.(selected as the Front Cover
story)
(74)
Chao-Yao Yang, Yi-Hsuan Chiu, Kai-An Tsai, Hua-Shu Hsu, Jun-Xiao Lin,
Pei-Jung Ho, Po-Wen Chen,Yung-Jung Hsu, Yuan-Chieh Tseng*, "Tailor
magnetic order and spin-polarized gap states of opto-spintronic
compounds by carrier mediation", Journal
of Magnetism and Magnetic Materials2018, 460, 78-82.
(73) Yi-Hsuan
Chiu, Kao-Der Chang, Yung-Jung Hsu*, "Plasmon-mediated charge dynamics
and photoactivity enhancement for Au-decorated ZnO nanocrystals", Journal of Materials Chemistry A2018, 6, 4286-4296.
(featured as the 2018 JMCA HOT papers and Industry R&D collection;
selected as the Front Cover
story)
(72) Jing-Mei
Li, Yu-Ting Wang, and Yung-Jung Hsu*, "A more accurate, reliable method
to evaluate the photoelectrochemical performance of semiconductor
electrode without under/over estimation", Electrochimica
Acta2018, 267, 141-149.
(63)
Jing-Mei Li, Hao-Yun Cheng, Yi-Hsuan Chiu, Yung-Jung Hsu*,
"ZnO-Au-SnO2 Z-scheme Photoanodes for Remarkable Photoelectrochemical
Water Splitting", Nanoscale2016, 8, 15720-15729.
(62)
Wei-Hao Lin, Chun-Yi Chen, Tso-Fu Mark Chang*, Yung-Jung Hsu*, Masato
Sone, "Effects of Pressure in Cathodic Deposition of TiO2 and SnO2 with
Supercritical CO2 Emulsified Electrolyte", Electrochimica Acta2016, 208, 244-250.
(61)
Thi Hien Do, Chien Nguyen Van, Kai-An Tsai, Le Thi Quynh, Jhih-Wei
Chen, Yan-Cheng Lin, Yi-Chun Chen, Wu-Ching Chou, Chun-Lin Wu,
Yung-Jung Hsu*, Ying-Hao Chu*, "Superior photoelectrochemical activity
of self-assembled NiWO4–WO3 heteroepitaxy", Nano
Energy2016, 23, 153-160.
(60)
Yi-Han Hsu, An T. Nguyen, Yi-Hsuan Chiu, Jing-Mei Li, Yung-Jung Hsu*,
"Au-decorated GaOOH Nanorods Enhanced the Performance of Direct
Methanol Fuel Cells under Light Illumination", Applied Catalysis B:
Environmental2016, 185, 133-140.
(58) Yu-Chih
Chen, Tao-Cheng Liu, and Yung-Jung Hsu*, "ZnSe-0.5(N2H4) Hybrid
Nanostructures: A Promising Alternative Photocatalyst for Solar
Conversion", ACS Applied Materials & Interfaces2015, 7, 1616-1623.
(57) Yu-Chih
Chen, Ken-ichi Katsumata,* Yi-Hsuan Chiu, Kiyoshi Okada, Nobuhiro
Matsushita, and Yung-Jung Hsu,* "ZnO–graphene composites as practical
photocatalysts for gaseousacetaldehyde degradation and electrolytic
water oxidation", Applied Catalysis
A: General2015, 490, 1-9.
(56) Kai-An
Tsai and Yung-Jung Hsu,* "Graphene quantum dots mediated charge
transfer of CdSe nanocrystals for enhancing photoelectrochemical
hydrogen production", Applied Catalysis B: Environmental2015, 164, 271-278.
(55) Ying-Chih
Pu, Wei-Hao Lin and Yung-Jung Hsu,* "Modulation of Charge Carrier
Dynamics of NaxH2-xTi3O7-Au-Cu2O Z-Scheme Nanoheterostructures through
Size Effect", Applied Catalysis B: Environmental 2015, 163,343-351.
(54)Yin- Kai Lin, Yu-Ju Chiang, and
Yung-Jung Hsu,* "Metal-Cu2O
Core-Shell Nanocrystals for Gas Sensing Applications: Effect of Metal
Composition", Sensors & Actuator
B: Chemical 2014, 204, 190-196.
(53) Chao-Yao
Yang, Yi-Hsuan Lu, Wei-Hao Lin, Min-Han Lee, Yung-Jung Hsu, Horn-Ji
Lin, and Yuan-Chieh Tseng,* "Structural Imperfections and Attendant
Localized/Itinerant Ferromagnetism in ZnO", Journal of Physics D: Applied Physics2014, 47, 345003.
(52) Yu-Wei
Su, Wei-Hao Lin, Yung-Jung Hsu, and Kung-Hwa Wei,* "Conjugated
Polymer/Nanocrystal Nanocomposites for Renewable Energy Applications in
Photovoltaics and Photocatalysis," Small2014, 10, 4427-4442. (invited Review)
(51) Ko-Ying
Pan, Chia-Hung Chien, Ying-Chih Pu, Chia-Ming Liu, Yung-Jung Hsu,
Jien-Wei Yeh, Han C Shih,* "Studies on the annealing and antibacterial
properties of the silver-embedded aluminum/silica nanospheres" Nanoscale Research Letters2014, 9, 307.
(50) Ying-Chih
Pu, Yichuan Ling, Kao-Der Chang, Chia-Ming Liu, Jin Z. Zhang, Yung-Jung
Hsu,* and Yat Li,* "Surface Passivation of TiO2 Nanowires Using a
Facile Precursor-Treatment Approach for Photoelectrochemical Water
Oxidation, Journal of Physical
Chemistry C2014, 118, 15086-15094.
(49)
Yi-Hsuan Lu, Wei-Hao Lin, Chao-Yao Yang, Yi-Hsuan Chiu, Ying-Chih Pu,
Min-Han Lee, Yuan-Chieh Tseng, and Yung-Jung Hsu,* "A Facile Green
Antisolvent Approach to Cu2+-doped ZnO Nanocrystals with
Visible-Light-Responsive Photoactivities," Nanoscale2014, 6, 8796-8803.
(48) Ko-Ying
Pan, Yi-Fan Liang, Ying-Chih Pu, Yung-Jung Hsu, Jien-Wei Yeh, and Han
C. Shih,* "Studies on the photocatalysis of core-shelled SiO2–Ag
nanospheres bycontrolled surface plasmon resonance under visible
light," Applied Surface Science2014, 311, 399-404.
(47) Rohidas
B. Kale,* Yung-Jung Hsu, Yi-Feng Lin, Shih-Yuan Lu,* "Hydrothermal
synthesis, characterizations and photoluminescence study of single
crystalline hexagonal ZnO nanorods with three dimensional flowerlike
microstructures," Superlattices and
Microstructures2014, 69, 239-252.
(46)
An T. Nguyen, Wei-Hao Lin, Yi-Hsuan Lu, Yao-De Chiou, and Yung-Jung
Hsu,* "First Demonstration of Rainbow Photocatalysts Using Ternary Cd1-xZnxSe
Nanorods of Varying Compositions," Applied
Catalysis A: General2014,
476, 140-147.
(45) Ying-Chih
Pu and Yung-Jung Hsu,* "Cd1-xZnxSe
Quantum Dots with Type-I Core/Shell Structure: Single-Step Synthesis
and Use as Light Emitting Diodes," Nanoscale2014, 6, 3881-3888.
(44)Wei-Hao
Lin, Yi-Hsuan Lu,
and Yung-Jung Hsu,* "Au Nanoplates as Robust, Recyclable SERS
Substrates for Ultrasensitive Chemical Sensing," Journal of Colloid and
Interface Science2014,
418, 87-94.
(43)
Tso-Fu Mark Chang,* Wei-Hao Lin, Yung-Jung Hsu, Tatsuo Sato, and Masato
Sone, "Effects of Fluorinated Surfactant in Cathodic Deposition of TiO2
Films with Supercritical CO2 Emulsified Electrolyte," ECS Electrochemistry Letters 2014, 3, D1-D2.
(42) Wei-Hao
Lin, Tso-Fu Mark Chang, Yi-Hsuan Lu, Tatsuo Sato, Masato Sone, Kung-Hwa
Wei, and Yung-Jung Hsu,* "Supercritical CO2-Assisted Electrochemical
Deposition of ZnO Mesocrystals for Practical Photoelectrochemical
Applications," Journal of Physical Chemistry C2013, 117, 25596-25603.
(41) Wei-Ta Chen,
Yin-Kai Lin, Ting-Ting Yang, Ying-Chih Pu, and Yung-Jung Hsu,* “Au/ZnS
Core/Shell Nanocrystals as an Efficient Anode Photocatalyst in Direct
Methanol Fuel Cells,”Chemical
Communications2013,
49, 8486-8488.
(40)
Ying-Chih Pu, Gongming Wang, Kao-Der Chang, Yichuan Ling, Yin-Kai Lin,
Bob C. Fitzmorris, Chia-Ming Liu, Xihong Lu, Yexiang Tong, Jin Z.
Zhang, Yung-Jung Hsu,* and Yat Li,* “Au
Nanostructure-Decorated TiO2 Nanowires Exhibiting Photoactivity Across
Entire UV-visible Region for Photoelectrochemical Water Splitting,”Nano
Letters2013, 13, 3817-3823.
(39) Bob C.
Fitzmorris, Ying-Chih Pu, Jason K. Cooper, Yi-Fang Lin, Yung-Jung Hsu,*
Yat Li, and Jin Z. Zhang,* “Optical Properties and Exciton Dynamics of Alloyed
Core/Shell/Shell Cd1−xZnxSe/ZnSe/ZnS Quantum Dots,”ACS
Applied Materials & Interfaces2013, 5, 2893-2900.
(38) Meng-Yu Chen
and Yung-Jung Hsu,* “Type-II nanorod heterostructure
formation through one-step cation exchange,”Nanoscale2013, 5, 363-368.
(37) Yi-Fang Lin
and Yung-Jung Hsu,* “Interfacial charge carrier dynamics
of type-II semiconductor nanoheterostructures,”Applied Catalysis B: Environmental2013, 130-131, 93-98.
(36) Tso-Fu Mark
Chang,* Wei-Hao Lin, Yung-Jung Hsu, Chun-Yi Chen, Tatsuo Sato, Masato
Sone, “Cathodic deposition of TiO2
thin films with supercritical CO2 emulsified electrolyte,” Electrochemistry
Communications2013, 33, 68-71.
(33) Yu-Chih
Chen, Ying-Chih Pu, and Yung-Jung Hsu,* “Interfacial
Charge Carrier Dynamics of the Three-Component In2O3-TiO2-Pt
Heterojunction System,”Journal
of Physical Chemistry C2012,
116, 2967-2975.
(32) Wei-Ta Chen,
Yung-Jung Hsu, and Prashant V. Kamat,* “Realizing
Visible Photoactivity of Metal Nanoparticles: Excited-State Behavior
and Electron-Transfer Properties of Silver (Ag8) Clusters,”Journal of Physical
Chemistry Letters 2012, 3, 2493-2499.
(31) Ji-Yao Dong,
Cheng-Hsien Lin, Yung-Jung Hsu, Shih-Yuan Lu* and David Shan-Hill
Wong,* “Single-crystalline
mesoporous ZnO nanosheets prepared with a green antisolvent method
exhibiting excellent photocatalytic efficiencies,”CrystEngComm2012, 14, 4732-4737.
(29) Ji-Yao Dong,
Wei-Hao Lin, Yung-Jung Hsu, David Shan-Hill Wong* and ShihYuan Lu*, “Ultrafast formation of ZnO
mesocrystals with excellent photocatalytic activities by a facile
Tris-assisted antisolvent process,”CrystEngComm
2011, 13, 6218-6222.
(28) Yao-De Chiou
and Yung-Jung Hsu,* “Room-Temperature Synthesis of
Single-Crystalline Se Nanorods with Remarkable Photocatalytic
Properties,” Applied Catalysis B:
Environmental2011, 105, 211-219.
(27)Ting-Ting Yang,
Wei-Ta Chen, Yung-Jung Hsu,*
Kung-Hwa Wei, Tai-Yuan Lin, and Tai-Wei Lin, “Interfacial Charge
Carrier
Dynamics in Core-Shell Au-CdS Nanocrystals,” Journal of
Physical Chemistry C2010,
114, 11414-11420.
(25)
Ji-Yao Dong, Yung-Jung
Hsu, David Shan-Hill Wong,* and Shih-Yuan Lu,* “Growth of ZnO
Nanostructures with Controllable Morphology Using a Facile Green
Antisolvent
Method,” Journal of Physical Chemistry C2010, 114,
8867-8872.
(24)
Wei-Ta Chen and Yung-Jung
Hsu,* “L-Cysteine-Assisted Growth
of Core-Satellite ZnS-Au Nanoassemblies with High Photocatalytic
Efficiency,” Langmuir2010,
26, 5918-5925.
(23)
Chih-Chiang Chen, Wei-Yun Cheng, Shih-Yuan Lu,* Yi-Feng Lin,*
Yung-Jung Hsu, Kai-Shiun Chang,
Chao-Hsiang Kangb and Kuo-Lun Tung, “Growth of Zirconia and
Yttria-stabilized Zirconia
Nanorod Arrays Assisted by Phase Transition,” CrystEngComm2010, 12,
3664-3669.
(22)
Wei-Yun Cheng, Wei-Ta Chen, Yung-Jung Hsu,* and Shih-Yuan Lu,*
“Modulation and Improvement on
Separation of Photoinduced Charge Carriers in CdS-Metal
Nanoheterostructures,” Journal of Physical Chemistry C2009, 113,
17342-17346.
(21)
Yi-Feng Lin, Yung-Jung
Hsu, Wei-Yun Cheng, and Shih-Yuan Lu,* “Differential Sensing of Serine
and
Tyrosine with Aligned Cd1-xZnxS
Nanowire Arrays based on
pH-dependent Photoluminescence Behaviors,” ChemPhysChem2009, 10,
711-714.
(20)
Wei-Ta Chen, Ting-Ting Yang, and Yung-Jung Hsu,* “Au-CdS Core-Shell
Nanocrystals with Controllable
Shell Thickness and Photoinduced Charge Separation Property,” Chemistry of Materials2008,
20, 7204-7206.
(19)
Chih-Chang Chen, Yung-Jung
Hsu,* Yi-Feng Lin, and Shih-Yuan Lu,* “Superparamagnetism found in
Diluted
Magnetic Semiconductor Nanowires: Mn-Doped CdSe,” Journal
of Physical Chemistry C2008,
112, 17964-17968.
(18)
Yung-Jung Hsu* and
Shih-Yuan Lu,* “Dopant-Induced Formation of Branched CdS Nanocrystals,”
Small2008,
4, 951-955.
(17)
Yung-Jung Hsu,*
Shih-Yuan Lu,* and Yi-Feng Lin, “Spontaneous Reduction of Metal Ions
Initiated
by Ethylenediamine-Capped CdS Nanowires: A Sensing Mechanism Revealed,”
Chemistry of Materials2008, 20, 2854-2856.
(16) Te-Yu Wei, Cheng-Yu Kuo,
Yung-Jung Hsu, Shih-Yuan Lu,*
and Yu-Cheng Chang, “Tin OxideNanocrystals
Embedded in Silica Aerogel: Photoluminescence and Photocatalysis,” Microporous
&Mesoporous
Materials2008,
112,
580-588.
(15)
W. C. Pomerantz, K. D. Candwell, Yung-Jung
Hsu, S. H. Gellman,* and N. L. Abbott,* “Sequent Dependent Behavior of
Amphiphilic beta-Peptides on Gold Surfaces,” Chemistry of
Materials2007, 19, 4436-4441.
(14)
Yi-Feng Lin, Yung-Jung Hsu, Shih-Yuan Lu,*
Kuan-Tsung Chen,
and Tseung-Yuen Tseng,“Well-aligned
Ternary Cd1-xZnxS Nanowire Arrays and Their Composition-Dependent Field
EmissionProperties,” Journal
of Physical Chemistry C2007,111,
13418-13426.
(13) R. B. Kale,
Yung-Jung Hsu, Yi-Feng Lin,
and Shin-Yuan Lu,*
“Synthesis
of stoichiometric flowerlike ZnO nanorods with hundred percent
morphological
yield,” Solid State Communications2007, 142, 302-305.
(12) Yi-Feng Lin,
Yung-Jung Hsu, Shih-Yuan
Lu,* and Wei-Shan
Chiang, “One-Step
Formation of Core-Shell Sulfide-Oxide Nanorod Arrays from A Single
Precursor,” Nanotechnology2006, 17,
4773-4782.
(11) Yung-Jung
Hsu, Chiu-Mine Hung, Yi-Feng Lin,
Ben-Jie Liaw, Tarlok S. Lobana, Shih-Yuan Lu,*
and Chen-Wei Liu,* “[Cu4{Se2P(OiPr)2}4]:
A Novel Precursor Enabling Preparation of Nonstoichiometric Copper
Selenide (Cu2-xSe) Nanowires,” Chemistry
of Materials2006, 18, 3323-3329.
(10)Yi-Feng Lin, Yung-Jung Hsu, Shih-Yuan
Lu,* and Sheng-Chin Kung,
“Non-catalytic and Template-free Growth of Aligned CdS Nanowires
Exhibiting
High Field Emission Current Densities,” Chemical
Communications2006,
2391-2393.
(9) Yung-Jung Hsu, Shih-Yuan Lu,* and
Yi-Feng Lin, “Nanostructures of Sn and Their Enhanced, Shape-Dependent
Superconducting Properties,” Small2006, 2, 268-273.
(8) Yung-Jung Hsu,Shih-Yuan Lu,*
and Yi-Feng Lin, “One-Step Preparation of Coaxial CdS-ZnS and Cd1-xZnxS-ZnS
Nanowires,” Advanced Functional Materials2005,15, 1350-1357.
(7)Yung-Jung
Hsu and Shih-Yuan Lu,* “Vapor-Solid
Growth of Sn Nanowires: Growth Mechanism
and Superconductivity,” Journal of Physical Chemistry B2005, 109,
4398-4403.
(6)Yung-Jung
Hsu and Shin-Yuan Lu,* “Low
Temperature Growth and Dimension-Dependent Photoluminescence
Efficiency of Semiconductor Nanowires,” Applied
Physics A: Material Science & Processing 2005, 81,
572-578.
(5) Yung-Jung Hsu
and
Shih-Yuan Lu,* “One-Step Preparation of Coaxial CdS-ZnS Nanowires,” Chemical
Communications 2004,
2102-2103.
(4) Yung-Jung Hsu
and Shih-Yuan
Lu,*
“Photoluminescence resulting from semiconductor-metal solid
solution observed in one-dimensional semiconductor nanostructures,” Langmuir 2004, 20, 23-26.
(3) Yung-Jung Hsu
and Shih-Yuan
Lu,*
“Preparation of Nano-sized ZnS-passivated CdS particle films via
MOCVD Process with Co-fed Single Source Precursors,” Langmuir
2004, 20,
194-201.
(2) Yung-Jung Hsu
and
Shih-Yuan Lu,* “Additive Effect on Chemical Vapor Deposition of CdS,” Aerosol and Air Quality Research 2004, 4, 17-26.
(1) Chun-Chong Fu,
Shih-Yuan Lu,*
Yung-Jung Hsu, Gia-Chi Chen, Yi-Ren
Lin, and Wen-Teng Wu, “Superior
Mixing Performance for Airlift Reactor with a Net Draft Tube,” Chemical Engineering Science 2004, 59, 3021-3028.