Group Research
We study the science that governs energy conversion and storage, with the goals of developing technologies that allow for high-efficiency applications using low-cost materials. Our efforts bridge the conventional sub-disciplines of materials chemistry and heterogeneous catalysis. By designing and synthesizing materials with desired features at the atomic scale, we strive to enable processes that hold great promises for next generation energy-related applications. Upon completion, our results are expected to change how our energy is provided and utilized.
Ongoingprojectsin our lab are funded by NSF, DOE, ACS, and Massachusetts Clean Energy Center. They include solar fuel synthesis, through which solar energy is directly harvested and stored; photocatalysis, which enables unique chemical reactions that are difficult or impossible to do with conventional thermal catalysis; as well as advanced batteries, which are expected to offer greater capacity, better safety, and lower cost than state-of-the-art Li ion one.
Publications
View a complete list of our publications and their citation metrics on Google Scholar.
Publications
179.Yucheng Yuan, Jiawei He, Jiangwei Liu, Ming-Chi Wang, Tuhin Ganguly, John Santoro, Junpeng Wang, Jeffery A. Byers, Jia Niu, Mingjiang Zhong, Dunwei Wang, “Compatibilization of Polyolefin Blends through Acid–Base Interactions,”under reviewhttps://doi.org/10.26434/chemrxiv-2024-qhsj9
178.Stephanie A. Johnson, James R. Wilkes, Dunwei Wang, and Jeffery A. Byers, “Electronic Interactions between Anchored Molecular Catalyst and Support,”ACS Catalysis 2024,accepted for publication
177. Tianying Liu, Pan Wang, Wei Li, David Wang, Damith Lekamlage, Boqiang Chen, Frances Houle, Matthias Waegele, Dunwei Wang, “Temperature-Dependent Water Oxidation Kinetics: Implications and Insights,”ACS Central Science 2024,accepted for publication
176. Yucheng Yuan, Yuhan Zhang, Jan Paul Menzel, John Santoro, Madeline Dolack, Hongyan Wang, Victor Batista, Dunwei Wang, “High Conversion Propane Dehydrogenation by Photocatalysis under Ambient Conditions,” in press with ACS Catalysis
175.Yu Mu, James Nyakuchena, Yang Wang, James R. Wilkes, Tongtong Luo, Michael Goldstein, Brooke Elander, Udayan Mohanty, Junwei Lucas Bao, Jier Huang, Dunwei Wang, “Sulfurized Two-Dimensional Conductive Metal-Organic Framework as a High-Performance Cathode Material for Rechargeable Mg Batteries,”Angew. Chem. Int. Ed.2024,published online
174.Ziyin Kong, Jimin Park, Muchun Fei, Josephine Warfield, Dunwei Wang, James P Morken,Tandem Diboration–Protoboration of Terminal Alkynes: A Practical Route to α-Substituted Alkenyl Boronates,Synlett2024,published online
173.Wei Li, Dunwei Wang, “Non-innocent partners: bias distribution between photoanodes and cathodes in photoelectrochemical overall water splitting cells,”National Science Review,2024,published online
172.Yu Mu, Boqiang Chen, Hongna Zhang, Muchun Fei, Tianying Liu,Neal Mehta,David Z. Wang, Alexander J. M. Miller, Paula L. Diaconescu, Dunwei Wang, “Highly Selective Electrochemical Baeyer-Villiger Oxidation through Oxygen Atom Transfer from Water,”J. Am. Chem. Soc.2024,published online
171.Gavin J. Giardino, Hongyan Wang, Jia Niu, Dunwei Wang, “From Technical Lignin to Native Lignin: Depolymerization, Functionalization, and Applications,”Chem. Phys. Rev.2024,5, 021302
170.Muchun Fei, Benjamin Williams, Lizhuo Wang, Haoyi Li, James R. Wilkes, Tianying Liu,Yu Mu, Jier Huang, James Nyakuchena,Jun Huang, Wei Li,Dunwei Wang, “Highly Selective Photocatalytic Methane Coupling by Au-Modified Bi2WO6,”ACS Cata.2024,14, 3,1855–1861
169.James Nyakuchena, Sarah Ostresh, Daniel Streater, Humphrey Chiromo, James Wilkes, Sergey Lindeman, Dunwei Wang, Jens Neu, Gary Brudvig, Jiuer Huang, “Manipulating Photoconduction in Cu-pyrene 1-D Coordination Nanosheets by Modulating Interlayer π-π Stacking,”J. Phys. Chem. C.2024,128, 315-320
168.Hongna Zhang, Boqiang Chen, Tianying Liu, Gary Brudvig, Dunwei Wang, Matthias Waegele, “IR Spectroscopic Observation of Oxo- and Superoxo-Intermediates in the Water Oxidation Cycle of a Molecular Ir Catalyst,”J. Am. Chem. Soc.2024,146, 878-883
167.Tongtong Luo, Yang Wang, Brooke Elander, Michael Goldstein, Yu Mu, James Wilkes, Mikayla Faherenbruch, Justin Lee, Junwei Lucas Bao, Udayan Mohanty, Dunwei Wang, “Polysulfides in Magnesium-Sulfur Batteries,”Adv. Mater.2023,accepted for publication
166. Tianying Liu, Wei Li, David Z. Wang, Tongtong Luo, Muchun Fei, Dongyoon Shin, Matthias M. Waegele, Dunwei Wang,“Low Catalyst Loading Enhances Charge Accumulation for Photoelectrochemical Water Splitting,”Angew. Chem. Int. Ed.2023,62,e202307909
165.Yi Shen, Yu Mu, Dunwei Wang, Chong Liu, Paula Diaconescu, “Tuning electrode reactivity through organometallic complexes,”ACS Appl. Mater. Inter.2023,15, 28851-28878
164.Hongna Zhang, Tianying Liu, Nicholas Dulock, Benjamin P. Williams, Yuanxing Wang, Boqiang Chen, Haden Wikar, David Z. Wang, Gary W. Brudvig, Dunwei Wang, Matthias M. Waegele, “Atomically Dispersed Ir Catalysts Exhibit Support-Dependent Water Oxidation Kinetics,”Chem. Sci.2023,14, 6601-6607
163.Yucheng Yuan, Yuhan Zhang, Haoyi Li, Muchun Fei, Hongna Zhang,John Santoro, Dunwei Wang, “Methane Carboxylation Using Electrochemically Activated Carbon Dioxide,”Angew. Chem. Int. Ed.2023,62, e202305568
162.Haoyi Li, Chuanye Xiong, Lu Ma, Muchun Fei, Hongna Zhang, Xingxu Yan, Peter Tieu, Yucheng Yuan, Yuhan Zhang, James Nyakuchena, Jier Huang, Xiaoqing Pan, Matthias M. Waegele, De-en Jiang, Dunwei Wang,“Selective Formation of Acetic Acid and Methanol by Direct Methane Oxidation Using Rhodium Single Atom Catalysts,”J. Am. Chem. Soc.2023,145, 11415-11419
161.Yang Wang, Tongtong Luo, Brooke Elander, Yu Mu, Dunwei Wang, Udayan Mohanty, Junwei Lucas Bao, “Characterizing Grain Boundary Effects on Mg2+Conduction in Metal-Organic Frameworks,”ACS Appl. Mater. Inter.2023,15, 21659-21678
160.Henry Dodge, Benjamin Natinsky, Brandon Jolly, Haochuan Zhang, Yu Mu, Scott Chapp, Thi Tran, Paula Diaconescu, Loi Do, Dunwei Wang, Chong Liu, Alexander Miller, “Polyketones from Carbon Dioxide and Ethylene by Integrating Electrochemical and Organometallic Catalysis,”ACS Catal.2023,13,4053–4059
159.Ken J. Jenewein, Yuanxing Wang, Tianying Liu,Tara McDonald, Matej Zlatar, Nadiia Kulyk, Attila Kormányos, Dunwei Wang, Serhiy Cherevko, “Electrolyte engineering stabilizes photoanodes decorated with molecular catalysts,”Chem. Sus. Chem.2023,e202202319
158.Shijie Deng, Brandon J. Jolly, James R. Wilkes, Yu Mu, Jeffery A. Byers, Loi H. Do, Alexander J. M. Miller, Dunwei Wang, Chong Liu, and Paula L. Diaconescu, “Spatiotemporal control for integrated catalysis,”Nat. Rev. Methods Primers2023,3, 28
157.Haoyi Li, Muchun Fei, Jennifer L. Troiano, Lu Ma, Xingxu Yan, Peter Tieu, Yucheng Yuan, Yuhan Zhang, Tianying Liu, Xiaoqing Pan, Gary W. Brudvig, Dunwei Wang, “Selective Methane Oxidation by Heterogenized Iridium Catalysts,”J. Am. Chem. Soc.2023,145,769-773
156.Yanyan Zhao, Sheng Dai, Ke. R. Yang, Sufeng Cao, Kelly L. Materna, Hannah M. C. Lant, Li Cheng Kao, Xuefei Feng, Jinghua Guo, Gary W. Brudvig, Maria Flytzani-Strephanopoulos, Victor S. Batista, Xiaoqing Pan, Dunwei Wang, “Highly Stable Preferential Carbon Monoxide Oxidation by Dinuclear Heterogeneous Catalysts,”Proc. Nat. Acad. Sci.2023,120,e2206850120
155.Hongyan Wang, Gavin J. Giardino, Rong Chen, Cangjie Yang, Jia Niu, Dunwei Wang, “Photocatalytic Depolymerization of Native Lignin Toward Chemically Recyclable Polymer Networks,”,ACS Cen. Sci.2023,9,48-55
154.Benjamin Williams, Haochuan Zhang, Yu Mu, James R. Wilkes, Haden Wikar, Dunwei Wang, “Li+ ion transport in lithium metal batteries: a fundamental picture and future perspectives,”J. Phys. Chem. C2022,126,10644-10652
153.Carlota Bozal-Ginesta, Reshma Rao, Camilo A. Mesa, Yuanxing Wang, Yanyan Zhao, Gongfang Hu, Daniel Antón-García, Ifan Stephens, Erwin Reisner, Gary Brudvig, Dunwei Wang, James Durrant, “Spectroelectrochemistry of water oxidation kinetics in molecular versus heterogeneous oxide iridium electrocatalysts,”J. Am. Chem. Soc.2022,14, 8454
152.Tangyuan Li, Qi Dong, Zhennan Huang, Lianping Wu, Yonggang Yao, Jinlong Gao, Xizheng Wang, Haochuan Zhang, Dunwei Wang, Teng Li, Reza Shahbazian-Yassar, Liangbing Hu, “Interface Engineering Between Multielemental Alloy Nanoparticles and Carbon Support Toward Stable Catalysts,”Adv. Mater.2022,34,2106436
151.Yang Wang, Tongtong Luo, Yang Li, Ailun Wang, Dunwei Wang, Junwei Lucas Bao, Udayan Mohanty, and Chia-Kuang Tsung, “Molecular-Level Insights into Selective Transport of Mg2+in Metal-Organic Frameworks,”ACS Appl. Mater. Inter.2021,13, 51974
150.Xiaogang Yang, Yuanxing Wang, Chang Ming Li, Dunwei Wang, “Mechanisms of Water Oxidation on Heterogeneous Catalyst Surfaces,”Nano Research2021,14, 3446-3457
149.Miao Qi, Haochuan Zhang, Qi Dong, Jingyi Li, Rebbeca A. Musgrave, Yanyan Zhao,Nicholas Dulock, Dunwei Wang, and Jeffery A. Byers, “Electrochemically Switchable Polymerization from Surface- Anchored Molecular Catalysts,”Chem. Sci.2021,12, 9042-9052
148.Victor Batista, Can Li, Wilson Smith, Dunwei Wang, “Introducing special issue on photocatalysis and photoelectrochemistry,”J. Chem. Phys.2021,154, 190401
147.Haochuan Zhang, Jingru Luo, Miao Qi, Shiru Lin, Qi Dong, Haoyi Li,Nicholas Dulock, Christopher Povinelli, Nicholas Wong,Wei Fan, Junwei Lucas Bao, and Dunwei Wang, “Enabling Lithium Metal Anode in Nonflammable Phosphate Electrolyte with Electrochemically-Induced Chemical Reactions,”Angew. Chem. Int. Ed.2021,60, 19183-19190(inside cover;)
146.Keyan Li, Botong Miao, Wenjun Fa, Rong Chen, Jing Jin, Kirk H. Bevan, Dunwei Wang, “Evolution of surface oxidation on Ta3N5as probed by a photoelectrochemical method,”ACS Appl. Mater. Inter.2021,13,17420-17428
145. Rong Chen, Cangjie Yang, Zefeng Zhou, Fredrik Haeffner, Alinda Dersjant, Nicholas Dulock, Qi Dong, Da He, Jing Jin, Yanyan Zhao, Jia Niu, Dunwei Wang, "Electrochemically Triggered Chain Reactions for the Conversion of Furan Derivatives,"Angew. Chem. Int. Ed.2021,60, 7534-7539
144.Chaochao Lang, Jingyi Li, Ke R. Yang, Yuanxing Wang, Da He, James E. Thorne, Seth Croslow, Qi Dong, Yanyan Zhao, Gabriela Prostko, Gary W. Brudvig, Victor S. Batista, Matthias Waegele, Dunwei Wang, “Observation of a Potential-Dependent Switch of Water Oxidation Mechanism on Co-Oxide-BasedCatalysts,”Chem2021,7, 2101-2117
143.Srinivas Vanka, Baowen Zhou, Rasha A. Awni, Zhaoning Song, Faqrul A. Chowdhury, Xuedong Liu, Hamed Hajibabaei, Wen Shi, Yixin Xiao, Ishtiaque A. Navid, Ayush Pandey, Rong Chen, Gianluigi A. Botton, Thomas W. Hamann, Dunwei Wang, Yanfa Yan, and Zetian Mi, “InGaN/Si Double-Junction Photocathode for Unassisted Solar Water Splitting,”ACS Energy Lett.2020,5,3741-3751
142.Xizheng Wang, Qi Dong, Haiyu Qiao, Zhennan Huang, Geng Zhong, Zhiwei Lin, Mingjin Cui, Qinqin Xia, Jinlong Gao, Gang Chen, Reza Shahbazian-Yassar, Dunwei Wang, Liangbing Hu, “Continuous Synthesis of Hollow High Entropy Nanoparticles for Energy and Catalysis Applications,”Adv. Mater.2020,32, 2002853
141.Qi Dong; Tangyuan Li; Yonggang Yao; Xizheng Wang; Shuaiming He; Jingyi Li; Jingru Luo; Haochuan Zhang; Yong Pei; Chaolun Zheng; Min Hong; Jinlong Gao; Dunwei Wang; Bao Yang; Liangbing Hu, “A General Method for Regenerating Catalytic Electrodes,”Joule2020,4, 2374-2386
140.Bingqing Zhang, Shaochen Xu, Da He, Rong Chen, Yumin He, Wenjun Fa, Gonghu Li, Dunwei Wang, “Photoelectrochemical NADH Regeneration is Highly Sensitive to the Nature of Electrode Surface,”J. Chem. Phys.2020,153,064703
139. Ruonan Chen, Keyi Tian, Da He, Tianyue Gao, Ge Yang, Hongyu Chen, Dunwei Wang, Yanhua Zhang, “Carboxylation of ɑ,β-Unsaturated Ketones by CO2Fixation through Photoelectrochemistry,”ACS Appl. Energy Mater.2020,3,5813
138. Sufeng Cao, Yanyan Zhao, Sungsik Lee, Shize Yang, Jilei Liu, Georgios Giannakakis, Mengwei Li, Mengyao Ouyang, Dunwei Wang, E. Charles H. Sykes, Maria Flytzani-Stephanopoulos, “High-loading Single Pt Atom Sites [Pt-O(OH)x]-Stabilized by Alkaline Ions Catalyze CO PROX Reaction with High Activity and Selectivity at Mild Conditions,”Sci. Adv.2020,6,eaba3809
137. Guanyu Liu, Siva Karuturi, Hongjun Chen, Dunwei Wang, Joel Ager, Alexandr Simonov, Antonio Tricoli, "Enhancement of the Photoelectrochemical Water Oxidation by Perovskite BiFeO3via Structural Engineering,”Solar Energy2020,202, 198-203
136. Yumin He, Rong Chen, Wenjun Fa, Bingqing Zhang, Dunwei Wang, “Surface Chemistry and Photoelectrochemistry: Case Study on Tantalum Nitride,”J. Chem. Phys.2019,151,130902
135. Jingru Luo, Yang Li, Haochuan Zhang, Ailun Wang, Wei-Shang Lo, Qi Dong, Nicholas Wong, Christopher Povinelli, Yucai Shao, Sumanth Chereddy, Stephanie Wunder, Udayan Mohanty, Chia-Kuang Tsung, Dunwei Wang, “Metal-Organic-Framework Thin Film for Selective Mg2+ Transport,”Angew. Chem. Int. Ed.2019,58, 15313-15317
134. Binod Giri, Maryam Masroor, Tao Yan, Kateryna Kushnir, Alexander D. Carl, Curtis Doiron, Haochuan Zhang, Yanyan Zhao, Arther McClelland, Geoffrey A. Tompsett, Dunwei Wang, Ronald L. Grimm, Lyubov V. Titova, Pratap M. Rao, “Balancing Light Absorption and Charge Transport in Vertical SnS2 Nanoflake Photoanodes with Stepped Layers and Large Intrinsic Mobility,”Adv. Energy Mater.2019,9, 1901236
133. Bingju Zhong, Da He, Ruonan Chen, Tianyue Gao, Yuanxing Wang, Hongyu Chen, Yanhua Zhang, Dunwei Wang, “Understanding Photoelectrochemical Kinetics in a Model CO2 Fixation Reaction,”Phys. Chem. Chem. Phys.2019,21, 17517-17520
132. Elizabeth C. Pastrana, Victor Zamora, Dunwei Wang, Hugo Alarcon, “Fabrication and Characterization of ɑ-Fe2O3/CuO Heterostructure Thin Films via Dip-coating Technique with Enhanced Photoelectrochemical Performance,”Adv. Nat. Sci. Nanosci. Nanotech.2019,3, 035012
131. Qi Dong, Xizi Zhang, Chaochao Lang, Dunwei Wang, “Role of H2O in CO2 Electrochemical Reduction as Studied in a Water-in-Salt System,”ACS Cent. Sci.2019,5, 1461-1467
130. Steven D. Lacey, Qi Dong, Zhennan Huang, Jingru Luo, Hua Xie, Zhiwei Lin, Vivek Vattipalli, Christopher Povinelli, Wei Fan, Reza Shahbazian-Yassar, Dunwei Wang, Liangbing Hu, “Stable Multimetallic Nanoparticles for Oxygen Electrocatalysis,”Nano Lett.2019,19,5149
129. Hamed Hajibabaei, Daniel Little, Ayush Pandey, Dunwei Wang, Zetian Mi, Thomas Hamann, “Direct Deposition of Crystalline Ta3N5 Thin-Films on FTO for PEC Water Splitting,”ACS Appl. Mater. Inter.2019,11, 15457
128. Yumin He, Srinivas Vanka, Tianyue Gao, Da He, Jeremy Espano, Yanyan Zhao, Qi Dong, Chaochao Lang, Yongjie Wang, Thomas Hamann, Zetian Mi, Dunwei Wang, "Dependence of Interface Energetics and Kinetics on Catalyst Loading in a Photoelectrochemical System,"Nano Res.2019,12, 2378
127. Yawen Wang, Da He, Hongyu Chen and Dunwei Wang, "Catalysts in Electro-, Photo- and Photoelectrocatalytic CO2 Reduction Reactions," J. J. Photochem. Photobio., C: Photochem. Rev.2019,
126. Woon Yong Sohn, Mika Inaba, Tsuyoshi Tokubuchi, James E. Thorne, Dunwei Wang, and Kenji Katayama, "Uncovering Photo-Excited Charge Carrier Dynamics in Hematite (α-Fe2O3) Hidden in Nanosecond Range by Heterodyne Transient Grating Technique Combined with Randomly-Interleaved-Pulse-Train Method,"J. Phys. Chem. C201911, 6693-6700
125. Yumin He, Thomas Hamann, Dunwei Wang, "Thin Film Photoelectrodes for Solar Water Splitting,"Chem. Soc. Rev.2019,48,2182-2215
124. Lei Li, Xiaogang Yang, Yan Lei, Haili Yu, Zhongzheng Yang, Zhi Zheng, Dunwei Wang, “Ultrathin Fe-NiO nanosheets as catalytic charge reservoir for planar Mo-doped BiVO4 photoanode,”Chem. Sci.2018,9, 8860-8870
123. Guanyu Liu, Siva Karuturi, Hongjun Chen, Leone Spiccia, Hark Tan, Chennupat Jagadish, Dunwei Wang, Alexandr Simonov, Antonio Tricoli, “Tuning the Morphology and Structure of Disordered Hematite Photoanodes for Improved Water Oxidation: A Physical Chemical Synergistic Approach,”Nano Energy2018, 53, 745-752
122. Shasha Zhu, Yanyan Zhao, Yumin He, Dunwei Wang, "Selectivity of H2O2 and O2 on Metal Oxide Surfaces by Water Oxidation,"J. Chem. Phys.2019,150, 04172
121. Xiaogang Yang, Dunwei Wang, “Photocatalysis: Fundamental Principles, Materials and Applications,” ACS Appl. Energy Mater.2018,1, 6657-6693
120. Johannes Messinger, Osamu Ishitani, Dunwei Wang, “Artificial photosynthesis - from sunlight to fuels and valuable products for a sustainable future,”Sustainable Energy Fuels2018,2, 1891-1892
119. Yanyan Zhao, Xingxu Yan, Ke Yang, Sufeng Cao, Qi Dong, James E. Thorne, Kelly Materna, Shasha Zhu, Xiaoqing Pan, Maria Flytzani-Stephanopoulos, Gary Brudvig, Victor Batista, Dunwei Wang, “End-on Bound Ir Dinuclear Heterogeneous Catalysts on WO3 for Solar Water Oxidation,”ACS Central Sci.2018,4, 1166-1172
118. Inaba Mika, James Thorne, Dunwei Wang, Kenji Katayama, Woon Yong Sohn, “Comparative Study of Photo-Excited Charge Carrier Dynamics of Atomic Layer Deposited and Solution-Derived Hematite Films: Dependence of Charge Carrier Kinetics on Surface Orientations,”J. Photochem. Photobio A: Chem.2018,364, 645-649
117. Yuanxing Wang, Cailing Niu, Dunwei Wang, “Metallic Nanocatalysts for Electrochemical CO2 Reduction in Aqueous Solutions,”J. Colloid Inter. Sci.2018,527, 95-106
116. Wei Li, Ke R. Yang, Xiahui Yao, Yumin He, Qi Dong, Gary W. Brudvig, Victor S. Batista, Dunwei Wang, “Facet-dependent Kinetics and Energetics of Hematite for Solar Water Oxidation Reactions,”ACS Appl. Mater. Inter.2018,
115. Miao Qi, Qi Dong, Dunwei Wang, Jeffery A. Byers, “Electrochemically Switchable Ring-Opening Polymerization of Lactide and an Cyclohexene Oxide,”J. Am. Chem. Soc.2018,140, 5686-5690
114. Wei Li, Da He, Guoxiang Hu, Xiang Li, Gourab Baerjee, Jingyi Li, Hee Shin, Qi Dong, Tianyue Gao, Gary Brudvig, Matthias Waegele, De-en Jiang, Dunwei Wang, "Selective CO production by photoelectrochemical methane oxidation on TiO2,"ACS Cent. Sci.2018,4, 631-637
113. Qi Dong, Dunwei Wang, "Catalysis in metal-air batteries,"MRS Communications2018,8,372-286
112. Yumin He, Dunwei Wang, "Toward Practical Solar Hydrogen Production,"Chem2018,4, 405-408
111. Qi Dong, Xiahui Yao, Yanyan Zhao, Miao Qi, Xizi Zhang, Hongyu Sun, Yumin He, Dunwei Wang, “Cathodically Stable Li-O2 Battery Operations Using Water-in-Salt Electrolyte,”Chem2018,4, 1345-1358
110. Yanyan Zhao, Ke Yang, Zechao Wang, Xingxu Yan, Sufeng Cao, Yifan Ye, Qi Dong, Xizi Zhang, James E. Thorne, Lei Jin, Kelly Materna, Antonios Trimpalis, Hongye Bai, Sirine Fakra, Xiaoyan Zhong, Peng Wang, Xiaoqing Pan, Jinghua Guo, Maria Flytzani-Stephanopoulos, Gary W. Brudvig, Victor S. Batista, Dunwei Wang, “Stable Iradium Dinuclear Heterogeneous Catalysts Supported by Metal Oxide Substrate for Solar Water Oxidation,”Proc. Nat. Acad. Sci.2018,115, 2902-2907
109. Melissa Cardona, Mingyang Li, Wei Li, Jeremy McCall, Dunwei Wang, Yat Li, Chen Yang, “The Role of Graphene as an Overlayer on Nanostructured Hematite Photoanodes for Improved Solar Water Oxidation,”Mater. Today Energy2018,8, 8-14
108. Woon Yong Sohn, James E. Thorne, Yaohong Zhang, Shota Kuwahara, Qing Shen, Dunwei Wang, Kenji Katayama, “Charge Carrier Kinetics in Hematite with an Amorphous NiFeOx Coating in Aqueous Solutions: Dependence on Bias Voltage,”J. Photochem. Photobio. A: Chem.2018,353, 344-348 online
107. Yifan Ye, James E. Thorne, Chenghao Wu, Yi-Sheng Liu, Chun Du, Ji-Wook Jang, Erik Y. Liu, Dunwei Wang, Jinghua Guo, "Strong O 2p-Fe 3d Hybridization Observed in Solution-Grown Hematite Films by Soft X-ray Spectroscopies,"J. Phys. Chem. B,2018,122, 927-932
106. James E. Thorne, Yanyan Zhao, Da He, Shizhao Fan, Zetian Mi, Dunwei Wang, "Understanding the Role of Co-Catalysts on Silicon Photocathodes Using Intensity Modulated Photocurrent Spectroscopy,"Phys. Chem. Chem. Phys., 2017,19, 29663-29659
105. Yumin He, Peiyan Ma, Shasha Zhu, Mengdi Liu, Qi Dong, Jeremy Espano, Xiahui Yao, Dunwei Wang, "Photo-induced performance enhancement of tantalum nitride for solar water oxidation,"Joule,2017,1, 290-305
104. Sheng Chu, Wei Li, Yanfan Yan, Thomas Hamann, Ishiang Shih, Dunwei Wang, Zetian Mi, “Solar Water Splitting: Current Status and Future Prospects,”Nano Futures,2017,1,022001
103. Sarah M. Lauinger, Brandon D. Piercy, Wei Li, Qiushi Yin, Daniel L. Collins-Wildman, Ellion N. Glass, Mark D. Losego, Dunwei Wang, Yurii V. Geletit, Craig Hill, “Stabilization of Polyoxometalate Water Oxidation Catalysts on Hematite by Atomic Layer Deposition,”ACS Appl. Mater. Interface.2017,9,35048-35056
102. Erik S. Liu, James E. Thorne, Yumin He, Dunwei Wang, "Understanding Photocharging Effects on Bismuth Vandate,"ACS Appl. Mater. Interface.2017,9, 22083-22087
101. Shasha Zhu, Dunwei Wang, "Photocatalysis: Basic Principles, Diverse Forms of Implementations and Emerging Scientific Opportunities,"Adv. Energy Mater.2017,7,1700841
100. Jingru Luo, Xiahui Yao, Lei Yang, Yang Han, Liao Chen, Xiumei Geng, Vivek Vattipalli, Qi Dong, Wei Fan, Hongli Zhu, Dunwei Wang, "Free-Standing Porous Carbon Electrodes Derived from Wood for High-Performance Li-O2 Battery Applications,"Nano Res.2017,12, 4318-4326
99. Qingmei Cheng, Weiqiang Fan, Yumin He, Peiyan Ma, Srinivas Vanka, Zhizhao Fan, Zetian Mi, Dunwei Wang, "Photorechargeable High Voltage Redox Battery Enabled by Ta3N5 and GaN/Si Dual-Photoelectrode," Adv. Mater., 2017,29,1700312
98. Woon Yong Sohn, Shota Kuwahara, James E. Thorne, Dunwei Wang, Kenji Katayama, "Investigation of Photo-Excited Carrier Dynamcis in Hematite and the Effects of Surface Modifications by Advanced Transient Grating Technique,"ACS Omega,2017,2, 1031-1035
97. Wen Zheng, Qingmei Cheng, Dunwei Wang, Carl V. Thompson, "High-performance Solid-State On-Chip Supercapacitors Based on Si Nanowires Coated with Ruthenium Oxide Vai Atomic Layer Deposition,"J. Power Sources2017,341,1-10
96. Tong Jin, Da He, Wei Li, Charles J. Stanton III, Sebastian Pantovich, George F. Majetich, Henry F. Schaefer III, Jay Agarwal, Dunwei Wang, Gonghu Li, “CO2 Reduction with Re(I)-NHC Compounds: Driving Selective Catalysis with a Silicon Nanowire Photoelectrode,”Chem. Commun.2016,52,14258-14261
95. Qi Dong, Xiahui Yao, Jingru Luo, Xizi Zhang, Hajin Hwang, Dunwei Wang, "Enablling Rechargeable Non-aqueous Mg-O2 Battery Operations with Dual Redox Mediators,"Chem. Commun.2016,52, 13753-13756
94. Yumin He, James E. Thorne, Cheng Hao Wu, Peiyan Ma, Chun Du, Qi Dong, Jinghua Guo, Dunwei Wang, "What Limits the Performance of Ta3N5 for Solar Water Splitting?"Chem2016,1,640-655
93. Xiahui Yao, Jingru Luo, Qi Dong, Dunwei Wang, "A Rechargeable Non-Aqueous Mg-Br2 Battery,"Nano Energy2016,28, 440-446
92. Qi Dong, Dunwei Wang, "Encased for a New Life,"Chem2016,1, 190-192
91. Da He, Tong Jin, Wei Li, Sebastian Pantovich, Dunwei Wang, Gonghu Li, “Photoelectrochemical CO2 Reduction by a Molecular Cobalt(II) Catalyst on Planar and Nanostructured Silicon Surfaces,”Chem. Europe. J.2016,22, 13064-13067
90. Xiaogang Yang, Rui Liu, Yan Lie, Pingjiang Li, Ke Wang, Zhi Zheng, Dunwei Wang, "Dual Influence of Reduction-Annealing on Diffused Hematite/FTO Junction for Enhanced Photoelectrochemical Water Oxidation,"ACS Appl. Mater. Interface.2016,8, 16476-16485
89. Jiajia Cai, Yinglei Liu, Song Li, Meiqi Gao, Dunwei Wang, Gaowu Qin, "Orientation modulated charge transport in hematite for photoelectrochemical water splitting,"Functional Mater. Lett.2016,09, 1650047
88. Xiahui Yao, Qi Dong, Qingmei Cheng, Dunwei Wang, "Why Li-O2 Batteries Fail? Parasitic Chemical Reactions and Their Synergistic Effect,"Angew. Chem. Int. Ed.2016,55, 11344-11353
87. Wei Li, Da He, Stafford W. Sheehan, Yumin He, James E. Thorne, Xiahui Yao, Gary W. Brudvig, Dunwei Wang, "Comparison of Heterogenized Molecular and Heterogeneous Oxide Catalysts for Photoelectrochemical Water Oxidation,"Energy Environ. Sci2016,9, 1794-1802
86. James E. Thorne, Ji-Wook Jang, Erik Y. Liu, Dunwei Wang, "Understanding the Origin of Photoelectrode Performance Enhanced by Probing Surface Kinetics,"Chem. Sci.2016,7, 3347-3354
85. Jin Xie, Qi Dong, Ian Madden, Xiahui Yao, Qingmei Cheng, Paul Dornath, Wei Fan, Dunwei Wang, "Achieving Low Overpotential Li-O2 Operations by Li2O2 Decomposition Through One-Electron Processes,"Nano Lett.2015,15, 8371-8376
84. Xiahui Yao, Qingmei Cheng, Jin Xie, Qi Dong, Dunwei Wang, "Functionalizing Titanium Disilicide Nanonets with Cobalt Oxide and Palladium for Stable Li Oxygen Battery Operations,"ACS Appl. Mater. Interface.2015,7, 21948-21955
83. Seungho Cho, Ji-Wook Jang, Wenrui Zhang, Ady Suwardi, Haiyan Wang, Dunwei Wang, Judith Louise Driscoll, "Single-Crystalline Thin Films for Studying Solid Solution Photoelectrode Properties in Solar Energy Conversion,"Chem. Mater.2015,27, 6635-6641
82. James E. Thorne, Song Li, Chun Du, Gaowu Qin, Dunwei Wang, "Energetics at the Surface of Photoelectrodes and its Influence on the Photoelectrochemical Properties,"J. Phys. Chem. Lett.2015,6, 4083-4088
81. Rui Liu, Carolynn Stephani, Kian L. Tan, Dunwei Wang, “Tuning Redox Potentials of CO2 Reduction Catalysts for Carbon Photofixation by Si Nanowires,”Sci. China Mater.2015,58,515-520
80. Wei Li, Stafford W. Sheehan, Da He, Yumin He, Xiahui Yao, Ronald L. Grimm, Gary W. Brudvig, Dunwei Wang, “Hematite-Based Solar Water Splitting in Acidic Solutions: Functionalization by Mono- and Multi-layers of Ir Oxygen-evolution Catalysts,”Angew. Chem. Int. Ed.2015,54, 11428-11432
79. Ji-Wook Jang, Chun Du, Yifan Ye, Yongjing Lin, Xiahui Yao, James Thorne, Erik Liu, Greoory McMahon, Junfa Zhu, Ali Javey, Jinghua Guo, Dunwei Wang, "Enabling Unassisted Solar Water Splitting by Iron Oxide and Silicon,"Nat. Commun.2015,6, 7447
78. Jin Xie, Xiahui Yao, Qingmei Cheng, Ian P. Madden, Paul Dornath, Chun-Chih Chang, Wei Fan, Dunwei Wang, "Three-Dimensionally Ordered Mesoporous Carbon as Stable, High-Performance Li-O2 Battery Cathode,"Angew. Chem. Int. Ed.201554, 4299-4303
77. Yang Li, Zhihong Liu, Xiaoxiang Lu, Zhihui Su, Yanan Wang, Rui Liu, Dunwei Wang, Jie Jian, Joon Hwan Lee, Haiyan Wang, Qingkai Yu, Jiming Bao, "Broadband Infrared Photoluminescence in Silicon Nanowires with High Density Stacking Faults,"Nanoscale,2015,7,1601-1605
76. Xiaogang Yang, Rui Liu, Yumin He, James Thorne, Zhi Zheng, Dunwei Wang, "Enabling Practical Electrocatalysts-Assisted Photoelectrochemical Water Splitting with Earth Abundant Materials,"Nano Res.2015,8, 56-81
75. Pengcheng Dai, Wei Li, Jin Xie, Yumin He, James Thorne, Gregory McMahon, Jinhua Zhan, Dunwei Wang, "Forming Buried Junctions to Enhance Photovoltage by Cuprous Oxide in Aqueous Solutions,"Angew. Chem. Int. Ed.2014,53, 13493-13497 ()
74. Xiaogang Yang, Rui Liu, Chun Du, Pengcheng Dai, Zhi Zheng, Dunwei Wang, "Improving Hematite-Based Photoelectrochemical Water Splitting with Ultrathin TiO2 by Atomic Layer Deposition,"ACS Appl. Mater. Interfaces2014,6, 12005-12011 ()
73. Jin Xie, Xiahui Yao, Ian P. Madden, De-en Jiang, Lien-Yang Chou, Chia-Kuang Tsung, Dunwei Wang, "Selective Deposition of Ru Nanoparticles and Its Utilization for Li2O2 Formation and Decomposition,"J. Am. Chem. Soc.,2014,136,8903-8906()
72. Chun Du, Ming Zhang, Ji-Wook Jang, Yang Liu, Gang-Yu Liu, Dunwei Wang, "Observation and Alteration of Surface States on Hematite Photoelectrodes,"J. Phys. Chem. C.2014,30, 17054-17059 ()
71. Debajee Bora, P.-A. Glans, John Pepper, Yi-Sheng Liu, Chun Du, Dunwei Wang, Jinghua Guo, "An UHV Electrochemical Flow Cell for In-Situ/In-Operando Sofe X-ray Spectroscopy Study,"Rev. Sci. Instrum.2014,85, 043106
70. (Something not to be taken seriously) Author ProfileAngew. Chem. Int. Ed.2014,53,4518
69. Chun Du, Xiaogang Yang, Matthew T. Mayer, Henry Hoyt, Jin Xie, Gregory McMahon, Gregory Bischoping, Dunwei Wang, "Hematite-Based Water Splitting with Low Turn-On Voltages,"Angew. Chem. Int. Ed.2013,52, 12692-12695
68. Pengcheng Dai, Jin Xie, Matthew T.Mayer, Xiaogang Yang, Jinhua Zhan, Dunwei Wang, "Solar Hydrogen Generation by Si Nanowires with Atomic Layer Deposition Pt Nanoparticle Catalysts,"Angew. Chem. Int. Ed.2013,52,11325-11329
67. Jin Xie, Xiaogang Yang, Binghong Han, Yang Shao-Horn, Dunwei Wang, "Site-Selective Deposition of Twinned Platinum Nanoparticles on TiSi₂ Nanonets by Atomic Layer Deposition and Their Oxygen Reduction Activities,"ACS Nano2013, 7, 6337-6345
66. Sa Zhou, Xiaogang Yang, Jin Xie, Zachary Simpson, Dunwei Wang, "Titanium Disilicide Nanonet as a New Material Platform for Advanced Li Ion Battery Applications,"Chem. Commun.2013,49, 6470-6476
65. Xiaogang Yang, Chun Du, Rui Liu, Jin Xie, Dunwei Wang, "Balancing Photovoltage Generation and Charge Transfer for Semiconductor-based Photoelectrochemical Water Splitting,"J. Cata.2013304, 86-91
64. Rui Liu, Carolyn Stephani, Jae Jin Han, Kian T. Tan, Dunwei Wang, "Si Nanowires Show Improved Performance in Catalyzed Carbon Dioxide Photoreduction,"Angew. Chem. Int. Ed.2013,52,4225-4228
63. Matthew T. Mayer, Yongjing Lin, Guangbi Yuan, Dunwei Wang, "Forming Junctions at the Nanoscale for Improved Water Splitting by Seminconductor Materials: Case Studies of Hematite,"Acc. Chem. Res.2013,46, 1558-1566
62. Ming Zhang, Yongjing Lin, Thomas J. Mullen, Wei-feng Lin, Ling-Dong Sun, Chun-Hua Yan, Timothy E. Patten, Dunwei Wang, Gang-Yu Liu, "Improving Hematite's Solar Water Splitting Efficiency by Incorporating Rare-Earth Upconversion Nanmateials,"J. Phys. Chem. Lett.2012,3, 3188-3192
61. Zhuangqun Huang, Yongjing Lin, Xu Xiang, William Rodriguez-Cordoba, Kenneth J. McDonald, Karl S. Hagen, Kyoung-Shin Choi, Bruce S. Brunschwig, Djamaladdin G. Musaev, Craig L. Hill, Dunwei Wang, Tianquan Lian, “In situ Probe of Photocarrier Dynamics in Water-Splitting Hematite Electrodes,”Energy Environ. Sci.2012,5,8923-8926
60. Sa Zhou, Zachary I. Simpson, Xiaogang Yang, Dunwei Wang, "Layered Titanium Disilicide Stabilized by Oxide Coating for Highly Reversible Lithium Insertion and Extraction,"ACS Nano,2012,6,8114-8119
59. Matthew T. Mayer, Chun Du, Dunwei Wang, "Hematite/Si Nanowire Dual Absorber System for Photoelectrochemical Water Splitting at Low Applied Potentials,"J. Am. Chem. Soc.2012,134, 12406-12409
58. Rui Liu, Guangbi Yuan, Candice Joe, Ted Lightburn, Kian L. Tan, Dunwei Wang, “Si Nanowires as Photoelectrode for Carbon Dioxide Fixation,”Angedw. Chem. Int. Ed.2012, 51,6709-6712
57. Yongjing Lin, Yang Xu, Matthew T. Mayer, Zachary I. Simpson, Gregory McMahon, Sa Zhou, Dunwei Wang, "Growth of p-type Hematite by Atomic Layer Deposition and Its Utilization for Improved Solar Water Splitting",J. Am. Chem. Soc.2012,134, 5508-5511
56. Lien-Yang Chou, Rui Liu, Wanshu He, Ndi Geh, Yongjing Lin, Emily Y. F. Hou, Dunwei Wang, Harvey J. M. Hou, "Direct Oxygen and Hydrogen Production by Photo Water Splitting Using a Robust Bioinspired Manganese-oxo Oligomer Complex/Tungsten Oxide Catalytic System",Int. J. Hydrogen Energy2012,37, 8889-8896
55. Sa Zhou, Xiaogang Yang, Yongjing Lin, Jin Xie, Dunwei Wang, "A Nanonet-Enabled Li Ion Battery Cathode Material with High Power Rate, High Capacity and Long Cycle Lifetime",ACS Nano2012,6,919-924
54. Ruo-Gu Huang, Douglas Tham, Dunwei Wang, James R. Heath, “High Performance Ring Oscillators from 10-nm Wide Silicon Nanowire Field-Effect Transistors,”Nano Res.2011,4,1005-1012
53. Matthew Mayer, Zachary Simpson, Sa Zhou, Dunwei Wang, "Ionic Diffusion Driven Low Temperature Solid-State Reactions Observed on Copper Sulfide Nanowires,"Chem. Mater.2011,23, 5045-5051
52. Jin Xie, Xiaogang Yang, Sa Zhou, Dunwei Wang, "Comparing One- and Two-Dimensional Heteronanostructures as Si-Based Li Ion Battery Anode Materials,"ACS Nano2011,5, 9225-9231
51. Yongjing Lin, Guangbi Yuan, Stafford W. Sheehan, Sa Zhou, Dunwei Wang, "Hematite-Based Solar Water Splitting: Challenges and Opportunities,"Energy Enviorn. Sci.2011,4,4862-4869
50. Sa Zhou, Jin Xie, Dunwei Wang, "Understanding the Growth Mechanism of Titanium Disilicide Nanonets,"ACS Nano2011,5, 4205-4210
49. Yongjing Lin, Guangbi Yuan, Rui Liu, Sa Zhou, Stafford W. Sheehan, Dunwei Wang, "Semiconductor Nanostructure-Based Photoelectrochemical Water Splitting,"Chem. Phys. Lett.2011, 507,209-215 (featured cover article)
48. Yongjing Lin, Sa Zhou, Stafford W. Sheehan, Dunwei Wang, "Nanonet-Based Hematite for Efficient Solar Water Splitting,"J. Am. Chem. Soc.2011,133,2398-2401,
47. Guangbi Yuan, Ken Aruda, Sa Zhou, Andrew Levine, Jin Xie, Dunwei Wang, "Understanding Origin of Low Performance of Chemically Grown Si Nanowires for Solar Energy Conversion,"Angew. Chem. Int. Ed.2011,50, 2334-2338 (featured back cover)
46. Rui Liu, Yongjing Lin, Lien-Yang Chou, Stafford W. Sheehan, Wenshu He, Fan Zhang, Harvey J. M. Hou, Dunwei Wang, "Water Splitting Using Tungsten Oxide Prepared by Atomic Layer Deposition and Stabilized by Oxygen-Evolving Catalyst,"Angew. Chem. Int. Ed.2011,50, 499-502
45. Sa Zhou, Dunwei Wang, "Unique Lithiation and Delithiation Processes of Nanostructured Metal Silicides,"ACS Nano2010,4,7014-7020
44. Andrew Levine, Guangbi Yuan, Jin Xie, Dunwei Wang, "Preparation and Energetic Applications of Si Nanowires,"Sci. Adv. Mater.2010, 2,463-473
43. Xiaohua Liu, Matt Mayer, Dunwei Wang, "Negative Differential Resistance and Resistive Switching Behaviors in Cu2S Nanowire Devices,"Appl. Phys. Lett.2010,96, 223103
42. Sa Zhou, Xiaohua Liu, Dunwei Wang, "Si/TiSi2Hetero-nanostructures as High-capacity Anode Material for Li Ion Batteries,"Nano Lett.2010,10, 860-863
41. Xiaohua Liu, Matt Mayer, Dunwei Wang, "Understanding Ionic Vacancy Diffusion Driven Growth of Cuprous Sulphide Nanowires,"Angew. Chem. Int. Ed.2010,49, 3165-3168
40. Xiaohua Liu, Yongjing Lin, Sa Zhou, Stafford Sheehan, Dunwei Wang, “Complex Nanostructures: Synthesis and Energetic Applications,”Energies2010,3, 285-300
39. Guangbi Yuan, Huaizhou Zhao, Xiaohua Liu, Zainul Hasanali, Yan Zou, Andrew Levine, Dunwei Wang, “Synthesis and Photoelectrochemical Studies of Vertically Aligned Si Nanowire Arrays,”Angew. Chem. Int. Ed.2009,48, 9680-9684
38. Xiaohua Liu, Dunwei Wang, “Kinetically Induced Hexagonality in Chemically Grown Si Nanowires,”Nano Res.2009,2, 575-582
37. Yongjing Lin, Sa Zhou, Xiaohua Liu, Staff Sheehan, Dunwei Wang, "TiO2/TiSi2Heterostructures for High-Efficiency Photoelectrochemical H2O Splitting,"J. Am. Chem. Soc.2009,131, 2772-2773
36. Sa Zhou, Xiaohua Liu, Yongjing Lin, Dunwei Wang, “Rational Synthesis and Structural Characterizations of Complex TiSi2Nanostructures,”Chem. Mater.2009,21, 1023-1027
35. Guangbi Yuan, Xiaohua Liu, Weidong He, Dunwei Wang “Influence of Precursor Feeding Rate on Vapor-Liquid-Solid Nanowire Growth,”Appl. Phys. A2009,96, 399-402
34. Pengfei Qi, William S. Wong, Huaizhou Zhao, Dunwei Wang, "Low Temperature Synthesis of Si Nanowires using Multi-zone Chemical Vapor Deposition Methods,"Appl. Phys. Lett.2008,93, 163101
33. Sa Zhou, Xiaohua Liu, Yongjing Lin, Dunwei Wang, "Spontaneous Growth of Highly Conductive Two-dimensional Single Crystalline TiSi₂ Nanonets,"Angew. Chem. Int. Ed.,2008,47,7681-7684
32. Huaizhou Zhao, Sa Zhou, Zainul Hasanali, Dunwei Wang, “Influence of Pressure on Si Nanowire Growth Kinetics,”J. Phys. Chem. C2008,112, 5695-5698
Prior Publications
31. Bonnie A. Sheriff, Dunwei Wang, James R. Heath, Juanita N. Jurtin, “Complementary Symmetry Nanowire Logic Circuits: Experimental Demonstrations andin silicoOptimizations,”ACS Nano2008,2, 1789-1798
30. Dunwei Wang, Bonnie A. Sheriff, Michael McAlpine, James R. Heath, “Development of Ultra-High Density Silicon Nanowire Arrays for Electronics Applications,”Nano Res.2008,1, 9-21
29. Dunwei Wang, Yuri Bunimovich, Akram Boukai, James R. Heath, “Two-Dimensional, Single Crystal Nanowire Arrays,”Small2007,3, 2043-2047
28. Michael C. McAlpine, Habib Ahmad, Dunwei Wang, James R. Heath, “Highly Ordered Nanowire Arrays on Plastic Substrates for Ultra-sensitive Flexible Chemical Sensors,”Nature Mater.2007,6, 379-384
27. Dunwei Wang, “Synthesis and Properties of Germanium Nanowires,”Pure. Appl. Chem.2007,1, 55-65
26. Dunwei Wang, Bonnie A. Sheriff, James R. Heath, “Complementary Symmetry Nanowire Logic: Power-efficient Inverters With Gain,”Small2006,2, 1153-1158
25. Dunwei Wang, Bonnie A. Sheriff, James R. Heath, “Silicon p-FETs From Ultra-high Density Nanowire Arrays,”Nano. Lett.2006,6, 1096-1100
24. Dunwei Wang, Hongjie Dai, “Germanium Nanowires: From Synthesis, Surface Chemistry and Assembly to Devices,”Appl. Phys. A2006,85, 217-225
23. Dunwei Wang, Ying-Lan Chang, Zhuang Liu, Hongjie Dai, “Oxidation Resistant Germanium Nanowires: Bulk Synthesis, Long-chain Alkanethiols Functionalization and Langmuir-Blodgett Assembly,”J. Am. Chem. Soc.2005,127, 11871-11875
22. Dunwei Wang,Ryan Tu, Li Zhang, Hongjie Dai, “One-to-one Synthesis of Germanium Nanowires and Patterning of Individual Gold Nanoparticles for Aligned Nanowire Arrays,”Angew. Chem. Int. Ed.2005, 44, 2925-2929
21. Randy Grow, Qian Wang, Jien Cao, Dunwei Wang, Hongjie Dai, “Piezoresistance of Carbon Nanotubes on Deformable Thin-film Membranes,”Appl. Phys. Lett.2005, 86, 93104-93106
20. Jien Cao, Qian Wang, Dunwei Wang, Hongjie Dai,“Suspended Carbon Nanotube Quantum Wires with Two Gates,”Small2005,1, 138-141
19. Dunwei Wang, Ying-Lan Chang, Qian Wang, Jien Cao, Damon Farmer, Roy Gordon, Hongjie Dai, “Surface chemistry and electrical properties of germanium nanowires,”J. Am. Chem. Soc.2004,126, 11602-11611
18. Ali Javey, Jing Guo, Damon B. Farmer, Qian Wang, Dunwei Wang, Roy G. Gordon, Mark Lundstrom, Hongjie Dai, “Carbon Nanotube Field-Effect Transistors with Integrated Ohmic Contacts and High-κ Gate Dielectrics,”Nano Lett.2004,3, 447-450
17. Yiming Li, David Mann, Marco Rolandi, Woong Kim, Ant Ural, Steven Hung, Ali Javey, Jien Cao, Dunwei Wang, Erhan Yenilmez, Qian Wang, James F. Gibbons, Yoshio Nishi, Hongjie Dai, “Preferential Growth of Semiconducting Single-Walled Carbon Nanotubes by a Plasma Enhanced CVD Method,”Nano Lett.2004,3, 317-321
16. Dunwei Wang, Qian Wang, Ali Javey, Ryan Tu, Hongjie Dai, Hyoungsub Kim, Paul C. McIntyre, Tejas Krishnamohan, Krishna C. Saraswat, “Germanium Nanowire Field-effect Transistors with SiO2and High-κ HfO2Gate Dielectrics,”Appl. Phys. Lett.2003,83, 2432-2434
15. Hee Cheul Choi, Summit Kundaria, Dunwei Wang, Ali Javey, Qian Wang, Marco Rolandi, Hongjie Dai, “Efficient Formation of Iron Nanoparticle Catalysts on Silicon Oxide by Hydroxylamine for Carbon Nanotube Synthesis and Electronics,”Nano Lett.2003,3, 157-161
14. Fernando J. Gómez, Robert J. Chen, Dunwei Wang, Robert M. Waymouth, Hongjie Dai, “Ring Opening Metathesis Polymerization on Non-covalently Functionalized Single-walled Carbon Nanotubes,”Chem. Commun.2003,2, 190-191
13. Dunwei Wang, Hongjie Dai, “Low-temperature Synthesis of Single-crystal Germanium Nanowires by Chemical Vapor Deposition,”Angew. Chem. Int. Ed.2002,41, 4783-4786
12. Hee Cheul Choi, Woong Kim, Dunwei Wang, Hongjie Dai, “Delivery of Catalytic Metal Species onto Surfaces with Dendrimer Carriers for the Synthesis of Carbon Nanotubes with Narrow Diameter Distribution,”J. Phys. Chem. B2002,106, 12361-12365
11. Woong Kim, Hee Cheul Choi, Moongsub Shim, Yiming Li, Dunwei Wang, Hongjie Dai, “Synthesis of Ultralong and High Percentage of Semiconducting Single-walled Carbon Nanotubes,”Nano Lett.2002,2, 703-708
10. Yuegang Zhang, Yiming Li, Woong Kim, Dunwei Wang, Hongjie Dai, “Imaging As-grown Single-walled Carbon Nanotubes Originated from Isolated Catalytic Nanoparticles”,Appl. Phys. A.,2002,74, 325-328
9. Erhan Yenilmez, Qian Wang, Robert J. Chen, Dunwei Wang, Hongjie Dai, “Wafer Scale Production of Carbon Nanotube Scanning Probe Tips for Atomic Force Microscopy,”Appl. Phys. Lett.2002,80, 2225-2227
8. Robert J. Chen, Yuegang Zhang, Dunwei Wang, Hongjie Dai, “Noncovalent Sidewall Functionalization of Single-walled Carbon Nanotubes for Protein Immobilization,”J. Am. Chem. Soc.2001,123, 3838-3839
7. Yiming Li, Woong Kim, Yuegang Zhang, Marco Rolandi, Dunwei Wang, Hongjie Dai, “Growth of Single-walled Carbon Nanotubes from Discrete Catalytic Nanoparticles of Various Sizes,”J. Phys. Chem. B.2001,105, 11424-11431
6. Jinhua Zhan, Xiaogang Yang, Shengdong Li, Dunwei Wang, Yi Xie, Yitai Qian, “Synthesis of Ag2Se by Sonochemical Reaction of Se with AgNO3in Non-aqueous Solvent,”Int. J. Inorg. Mat.2001,3, 47-49
5. Jinhua Zhan, Xiaogang Yang, Dunwei Wang, Shengdong Li, Yi Xie, Younan Xia, Yitai Qian, “Polymer-controlled Growth of CdS Nanowires,”Adv. Mater.2000,12, 1348-1351
4. Jinhua Zhan, Xiaogang Yang, Wenxin Zhang, Dunwei Wang, Yi Xie, Yitai Qian, “A Solvothermal Route to Wurtzite ZnSe Nanoparticles,”J. Mat. Res.2000,15, 629-632
3. Jinhua Zhan, Xiaogang Yang, Shengdong Li, Dunwei Wang, Yi Xie, Yitai Qian, “A Chemical Solution Transport Mechanism for One-dimensional Growth of CdS Nanowires,”J. Crys. Growth2000,220, 231-234
2. Jinhua Zhan, Xiaogang Yang, Dunwei Wang, Yi Xie, Yitai Qian, “Synthesis of Nanocrystalline PbSe by Sonolysis of Pb(NO3)2in Non-aqueous Solvent,”Inorg. Chem. Comm.1999,2, 447-449
1. Jinhua Zhan, Xiaogang Yang, Yi Xie, Dunwei Wang, Yitai Qian, Xianming Liu, “Hydrazine-controlled Hydrothermal Synthesis of Co9S8 from a Homogeneous Solution,”J. Mater. Res.1999,14, 4418-4420