2017 |2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008-2003

2017
89 Li, G. X., Gao, Y., He, X., Huang, Q. Q., Chen, S. R., Kim, S. H., Wang, D. H., Organosulfide-plasticized solid-electrolyte interphase layer enables stable lithium metal anodes for long-cycle lithium-sulfur batteries, Nature Communications, 2017, 850. [Link]
88 Gao, Y., Zhao, Y. M., Li, Y. C., Huang, Q. Q., Mallouk, T. E., Wang, D. H., Interfacial Chemistry Regulation via a Skin-Grafting Strategy Enables High-Performance Lithium-Metal Batteries, Journal of The American Chemical Society, 2017, DOI:10.1021/jacs.7b06437. [Link]
87 Yu, Z. X., Song, J. X., Wang, D. W., Wang, D. H., Advanced anode for sodium-ion battery with promising long cycling stability achieved by tuning phosphorus-carbon nanostructures, Nano Energy, 2017, 40, 550-558. [Link]
86 Tang, D. H., Yi, R., Zhang, W. T., Qiao, Z. N., Liu, Y. L., Huo, Q. S., Wang, D. H., Bottom-up synthesis of mesoporous carbon/silicon carbide composite at low temperature for supercapacitor electrodes, Materials Letters, 2017, 198, 140-143. [Link]
85 Shang, S. L., Yu, Z. X., Wang, Y., Wang, D. H., Liu, Z. K., Origin of Outstanding Phase and Moisture Stability in a Na3P1-xAsxS4 Superionic Conductor, ACS Applied Materials & Interfaces, 2017, 9(19), 16261-16269. [Link]
84 Chen, S. R., Yu, Z. X., Gordin, M., Ran, Y., Song, J. X., Wang, D. H., A Fluorinated Ether Electrolyte Enabled High Performance Pre-lithiated Graphite/Sulfur Batteries, ACS Applied Materials & Interfaces, 2017, 9(8), 6959-6966. [Link]
83 Yu, Z. X., Shang, S. L., Seo, J. H., Wang, D. W., Luo, X. Y., Huang, Q. Q., Chen, S. R., Lu, J., Li, X. L., Liu, Z. K., Wang, D. H., Exceptionally high ionic conductivity in Na3P0.62As0.38S4 with improved moisture stability for solid-state sodium-ion batteries, Advanced Materials, 2017, 29(16). [Link] 
82 Chen, S. R., Gao, Y., Yu, Z. X., Gordin, M. L., Song, J. X., Wang, D. H., High capacity of lithium-sulfur batteries at low electrolyte/sulfur ratio enabled by an organosulfide containing electrolyte. Nano Energy, 2017, 31, 418. [Link]
2016
81 Chen, G., Wang, S. P., Yi, R., Tan, L. F., Li, H. B., Zhou, M., Yan, L. T., Jiang, Y. B., Tan, S., Wang, D. H., Deng, S. G., Meng, X. W., Luo, H. M., Facile synthesis of hierarchical MoS2-carbon microspheres as a robust anode for lithium ion batteries. Journal of Materials Chemistry A, 2016, 4, 9653. [Link]
80 Sohn, H., Kim, D. H., Yi, R., Tang, D. H., Lee, S. E., Jung, Y. S., Wang, D. H., Semimicro-size agglomerate structured silicon-carbon composite as an anode material for high performance lithium-ion batteries. Journal of Power Sources, 2016, 344, 128. [Link]
79 Choi, J. W., Wang, D. H., Wang, D. W. Nanomaterials for Energy Conversion and Storage. ChemNanoMat, 2016, 2, 560. [Link]
78 Tang, D. H., Huang, Q. Q., Yi, R., Dai, F., Gordin, M. L., Hu, S., Chen, S. R., Yu, Z. X., Sohn, H. S., Song, J. X., Wang, D. H. Room-Temperature Synthesis of Mesoporous Sn/SnO2 Composite as Anode for Sodium-Ion Batteries. European Journal of Inorganic Chemistry, 2016, 2016, 1950. [Link]

77

Tang, D. H., Hu, S., Dai, F., Yi, R., Gordin, M. L., Chen, S. R., Song, J. X., Wang, D. H. Self-Templated Synthesis of Mesoporous Carbon from Carbon Tetrachloride Precursor for Supercapacitor Electrodes. ACS Applied Materials & Interface, 2016, 8, 6779. [Link]

76

Chen, S. R., Dai, F., Gordin, M. L., Yu, Z. X., Gao, Y., Song, J. X., Wang, D. H. Functional Organosulfide Electrolyte Promotes an Alternate Reaction Pathway to Achieve High Performance in Lithium–Sulfur Batteries. Angewandte Chemie International Edition, 2016, 55, 4231. [Link]

75

Ai, G., Wang, Z. H., Zhao, H., Mao, W. F., Fu, Y. B., Yi, R., Gao, Y., Battaglia, V., Wang, D. H., Lopatin, S., Liu, G. Scalable process for application of stabilized lithium metal powder in Li-ion batteries. Journal of Power Sources, 2016, 309, 33. [Link]

74

Sohn, H., Gordin, M. L., Regula, M., Kim, D. H., Jung, Y. S., Song, J. X., Wang, D. H. Porous Spherical Polyacrylonitrile-Carbon Nanocomposite with High Loading of Sulfur for Lithium-Sulfur Batteries. Journal of Power Sources, 2016, 302, 70. [Link]
73 Song, J. X., Yu, Z. X., Gordin, M. L., Wang, D. H. Advanced Sulfur Cathode Enabled by Highly Crumpled Nitrogen-doped Graphene Sheets for High-Energy-Density Lithium-Sulfur Batteries. Nano Letters, 2016, 16, 864. [Link]
72 Yi, R., Gordin, M. L., Wang, D. H. Integrating Si nanoscale building blocks into micro-sized materials to enable practical application in lithium-ion batteries. Nanoscale, 2016, 8, 1834. [Link]
2015
71 Song, J. X., Yu, Z. X., Gordin, M. L., Li, X. L., Peng, H. S., Wang, D. H. Advanced Sodium Ion Battery Anode Constructed via Chemical Bonding between Phosphorus, Carbon Nanotube, and Cross-Linked Polymer Binder. ACS Nano, 2015, 9, 11933. [Link]

70

Song, Z. P., Qian, Y. M., Gordin, M. L., Tang, D. H., Xu, T., Otani, M., Zhan, H., Zhou, H. S., Wang, D. H. Polyanthraquinone as a Reliable Organic Electrode for Stable and Fast Lithium Storage. Angewandte Chemie International Edition 2015, 54, 13947. [Link]

69

Yu, Z. X., Shang, S. L., Gordin, M. L., Mousharraf, A., Liu, Z. K., Wang, D. H. Ti-substituted Li[Li0.26Mn0.6-xTixNi0.07Co0.07]O2 layered cathode material with improved structural stability and suppressed voltage fading. Journal of Materials Chemistry A 2015, 3, 17376. [Link]
68

Azimi, N., Xue, Z., Bloom, I., Gordin, M. L., Wang, D. H., Daniel T., Takoudis, C., Zhang, Z. Z. Understanding the Effect of a Fluorinated Ether on the Performance of Lithium-Sulfur Batteries. ACS Applied Materials & Interface 2015, 7, 9169. [Link]

67

Zhong, H., Yang, Y. B., Ding, F., Wang, D. H., Zhou, Y. H., Zhan, H. A Si–MnOOH composite with superior lithium storage properties. Chemical Communications, 2015, 51, 6164. [Link]

66

Yu, Z. X., Song, J. X., Gordin, M. L., Yi, R., Tang, D. H., Wang, D. H. Phosphorus-Graphene Nanosheet Hybrids as Lithium-ion Anodes with Exceptional High-Temperature Cycling Stability. Advanced Science 2015, 2, 1400020. [Link]

65

Song, J. X., Gordin, M. L., Xu, T., Chen, S. R., Yu, Z. X., Sohn, H.S., Lu, J., Ren, Y., Duan, Y. H., Wang, D. H. Strong Lithium Polysulfide Chemisorption on Electroactive Sites of Nitrogen-Doped Carbon Enables High-Performance Lithium-Sulfur Battery Cathodes. Angewandte Chemie International Edition 2015, 54, 4325. [Link]

64

Azimi, N., Xue, Z., Rago, N. D., Takoudis, C., Gordin, M. L., Song, J. X., Zhang, Z. Z., Wang, D. H. Fluorinated Electrolytes for Li-S Battery: Suppressing the Self-Discharge with an Electrolyte Containing Fluoroether Solvent. Journal of Electrochemical Society 2015, 162, A64. [Link]

2014

63 Song, J. X., Yu, Z. X., Gordin, M. L., Hu, S., Yi, R., Tang, D. H., Walter, T., Regula, M., Choi, D., Li, X., Manivannan, A., Wang, D. H.  Chemically Bonded Phosphorus/Graphene Hybrid as a High Performance Anode for Sodium-Ion Batteries. Nano Letters 2014, 14, 6329. [Link]
62 Yi, R., Chen, S. R., Song, J. X., Gordin, M. L., Manivannan, A., Wang, D. H. High-Performance Hybrid Supercapacitor Enabled by a High-Rate Si-Based Anode. Advanced Functional Materials 2014, 24, 7433. [Link]
61 Lv, D. P., Tang, D. H., Duan, Y. H.,  Gordin, M. L., Dai, F., Zhu, P. Y., Song, J. X., Manivannan, A., Wang, D. H. Study of Fluorine Substituted Phenyl Based Complex as 3V-electrolyte for Mg Batteries. Journal of Material Chemistry A 2014, 2, 15488. [Link]
60 Song, J. X., Zhou, M. J., Yi, R., Xu, T., Gordin, M. L., Tang, D. H., Yu, Z. X., Regula, M., Wang, D. H. Interpenetrated Gel Polymer Binder for High Performance Silicon Anode in Lithium-ion Battery. Advanced Functional Materials 2014, 24, 5904. [Link]
59 Tang, D. H., Yi, R., Gordin, M. L., Melnyk, M., Dai, F., Chen, S. R., Song, J. X., Wang, D. H. Titanium nitride coating to enhance the performance of silicon nanoparticles as a lithium-ion battery anode. Journal of Material Chemistry A 2014, 2, 10375. [Link]
58 Gordin, M. L., Dai, F., Chen, S. R., Xu, T., Song, J. X., Tang, D. H., Azimi, N., Zhang, Z. C., Wang, D. H. Bis(2,2,2-trifluoroethyl) Ether As an Electrolyte Co-solvent for Mitigating Self-Discharge in Lithium–Sulfur Batteries. ACS Applied Materials & Interface 2014, 6, 8006. [Link]
57 Sohn, H. S., Gordin, M. L., Xu, T., Chen, S. R., Lv, D. P., Song, J. X., Manivannan, A., Wang, D. H. Porous spherical carbon/sulfur nanocomposites by aerosol-assisted synthesis: the effect of pore structure and morphology on their electrochemical performance as lithium-sulfur battery cathodes. ACS Applied Materials & Interface 2014, 6, 7596. [Link]
56 Yi, R., Zai, J. T., Dai, F., Gordin, M. L., Wang, D. H. Dual Conductive Network-Enabled Graphene/Si-C Composite Anode with High Areal Capacity for Lithium-ion Batteries. Nano Energy 2014, 6, 211. [Link]
55 Song, J. X., Yu, Z. X., Xu, T., Chen, S. R., Sohn, H. S., Regula, M., Wang, D. H. Flexible Freestanding Sandwich-structured Sulfur Cathodes with Superior Performance for Lithium-sulfur Batteries. Journal of Material Chemistry A 2014, 2, 8623.. [Link]
54 Dai, F., Zai, J. T., Yi, R., Gordin, M. L., Sohn, H. S., Chen, S. R., Wang, D. H. Bottom-up Synthesis of High Surface Area Mesoporous Crystalline Silicon and Evaluation of Its Hydrogen Evolution Performance. Nature Communications 2014, 5, 3605. [Link]
53 Zhu, P. Y., Song, J. X., Lv, D. P., Wang, D. H., Jaye, C., Fischer, D. A., Wu, T. P., Chen, Y. S. Mechanism of Enhanced Carbon Cathode Performance by Nitrogen Doping in Lithium–Sulfur Battery: An X-ray Absorption Spectroscopic Study. Journal of Physical Chemistry C 2014, 118, 7765. [Link]
52 Chen, D., Yi, R., Chen, S. R., Xu, T., Gordin, M. L., Lv, D. P., Wang, D. H. Solvothermal synthesis of V2O5/graphene nanocomposites for high performance lithium ion batteries. Materials Science and Engineering: B 2014, 185, 7. [Link]
51 Chen, D., Yi, R., Chen, S. R., Xu, T., Gordin, M. L., Wang, D. H. Facile Synthesis of Graphene-silicon Nanocomposites with an Advanced Binder for High-performance Lithium-ion Battery Anodes, Solid State Ionics 2014, 254, 65. [Link]
50 Song, J. X., Chen S. R., Zhou, M. J., Xu, T., Gordin, M. L., Lv, D. P., Long T. J., Melnyk M., Wang, D. H. Micro-sized silicon-carbon composite composed of carbon-coated sub-10 nm Si primary particles as high-performance anode materials for lithium-ion batteries, Journal of Material Chemistry A 2014, 2, 1257. [Link]
49 Song, J. X., Xu, T., Gordin, M. L., Zhu, P. Y., Lv, D. P., Jiang, Y-B, Chen, Y. S., Duan Y. H., Wang, D. H. Nitrogen-Doped Mesoporous Carbon Promoted Chemical Adsorption of Sulfur and Fabrication of High-Areal-Capacity Sulfur Cathode with Exceptional Cycling Stability for Lithium-Sulfur Batteries, Advanced Functional Materials 2014, 24, 1243. [Link]
48 Lv, D. P., Gordin, M. L., Yi, R., Xu, T., Song, J. X., Jiang Y-B, Choi, D. W., Wang, D. H., GeOx/Reduced Graphene Oxide Composite as an Anode for Li-ion Batteries: Enhanced Capacity via Reversible Utilization of Li2O along with Improved Rate Performance, Advanced Functional Materials 2014, 24, 1059. [Link]
2013
47 Xu, T., Song, J. X., Gordin, M. L., Sohn, H. S., Yu, Z. X., Chen, S. R., Wang, D. H. Mesoporous Carbon-Carbon Nanotube-Sulfur Composite Microspheres for High-Areal-Capacity Lithium-Sulfur Battery Cathodes, ACS Applied Materials & Interface 2013, 5, 11355. [Link]
46 Yi, R., Zai, J. T., Dai, F., Gordin, M. L., Wang, D. H. Improved rate capability of Si-C composite anodes by boron doping for lithium-ion batteries, Electrochemistry Communications 2013, 36, 29. [Link]
45 Yi, R., Dai, F., Gordin, M. L., Sohn, H. S., Wang, D. H. Influence of Silicon Nanoscale Building Blocks Size and Carbon Coating on the Performance of Micro-sized Si-C Composite Li-ion Anodes. Advanced Energy Materials 2013, 3, 1507. [Link]
44 Chen, S. R., Dai, F., Gordin, M. L., Wang, D. H. Exceptional electrochemical performance of rechargeable Li-S batteries with polysulfide-containing electrolyte, RSC Advances 2013, 3, 3540. [Link]
43 Yi, R., Dai, F., Gordin, M. L., Chen, S. R., Wang, D. H. Micro-sized Si-C Composite with Interconnected Nanoscale Building Blocks as High-Performance Anodes for Practical Application in Lithium-ion Batteries, Advanced Energy Materials 2013, 3, 295. [Link]
42 Yi, R., Feng, J. K., Lv, D. P., Gordin, M. L., Chen, S. R., Choi, D. W. Wang, D. H. Amorphous Zn2GeO4 Nanoparticles as Anodes with High Reversible Capacity and Long Cycling Life for Li-ion Batteries, Nano Energy 2013, 2, 498. [Link]
41  Zhou, M. J., Gordin, M. L., Chen, S. R., Xu, T., Song, J. X., Lv. D. P., Wang, D. H. Enhanced Performance of SiO/Fe2O3 Composite as an Anode for Rechargeable Li-ion Batteries, Electrochemistry Communications 2013, 28, 79. [Link]
40 Lv, D. P., Xu, T., Saha P., Datta, M. K. Gordin, M. L., Ayyakkannu Manivannan, A., Kumta, P. N., and Wang, D. H. A Scientific Study of Current Collectors for Mg Batteries in Mg(AlCl2EtBu)2/THF Electrolyte, Journal of the Electrochemical Society 2013, 160, A351. [Link]
2012
39 Li, J., Zhu, K., Shang, J., Wang, D., Nie, Z., Guo, R., Liu, C., Wang, Z., Li, X., Liu, J. Fluorescent Functionalized Mesoporous Silica for Radioactive Material Extraction, Separation Science and Technology 2012, 47, 1507. [Link]
38 Dai, F., Yi, R., Gordin, M. L., Chen, S. R., Wang, D. H. Amorphous Si/SiOx/SiO2 Nanocomposites via a Facile and Scalable Synthesis as Anodes for Li-ion Batteries with Long Cycling Life, RSC Advances 2012, 2, 12710. [Link]
37 Chen, S. R.; Gordin, M. L.; Yi, R.; Howlett, G.; Sohn, H.; Wang, D. H. Silicon core–hollow carbon shell nanocomposites with tunable buffer voids for high capacity anodes of lithium-ion batteries. Physical Chemistry Chemical Physics 2012, 14, 12741. [Link]
36

Vaughn, D. D.; Hentz, O. D.; Chen, S. R.; Wang, D. H.; Schaak R. E. Formation of SnS Nanoflowers for Lithium Ion Batteries. Chemical Communications 2012, 48, 5608. [Link]

35 Song, Z. P.; Xu, T., Gordin, M. L.; Jiang, Y. B.; Bae, I. T.; Xiao, Q. F.; Zhan, H.; Liu, J.; Wang, D. H. Polymer-Graphene Nanocomposites as Ultrafast-Charge and -Discharge Cathodes for Rechargeable Lithium Batteries. Nano Letters 2012, 12, 2205. [Link]
34 Xu, Y.; Yi, R.; Yuan, B.; Wu, X.; Dunwell, M.; Lin, Q. L.; Fei, L.; Deng, S. G.; Andersen, P.; Wang, D. H.; Luo, H. M. High Capacity MoO2/Graphite Oxide Composite Anode for Lithium- Ion Batteries. Journal of Physical Chemistry Letters 2012, 3, 309. [Link]
33 Wang, L. Q.; Wang, D. H.; Liu, J.; Exarhos, G. J. Probing Porosity and Pore interconnectivity in Self-Assembled TiO2-Graphene Hybrid Nanostructures Using Hyperpolarized Xe-129 NMR. Journal of Physical Chemistry C 2012, 116, 22. [Link]
2011

32

Kou, R.; Shao, Y. Y.; Mei, D. H.; Nie, Z. M.; Wang, D. H.; Wang, Y.; Liu, J. Stabilization of Electrocatalytic Metal Nanoparticles at Metal-Metal Oxide-Graphene Triple Junction Points. Journal of the American Chemical Society 2011, 133, 2541. [Link]
2010
31 Xu, T.; Wang, W.; Gordin, M. L.; Wang, D. H.; Choi, D. W. Li-ion Batteries for Stationary Energy Storage. JOM 2010, 9, 24. [Link]
30 Choi, D. W.; Wang, D. H.; Bae, I. T.; Xiao, J.; Nie, Z. M.; Wang, W.; Viswanathan, V. V.; Lee, Y. J.; Zhang, J. G.; Graff, G. L.; Yang, Z. G.; Liu, J. LiMnPO4 Nanoplate Grown via Solid-State Reaction in Molten Hydrocarbon for Li-Ion Battery Cathode. Nano Letters 2010, 10, 2799. [Link]
29 Li, J. A.; Liu, J.; Wang, D. H.; Guo, R. S.; Li, X. L.; Qi, W. Interfacially Controlled Synthesis of Hollow Mesoporous Silica Spheres with Radially Oriented Pore Structures. Langmuir 2010, 26, 12267. [Link]
28 Zhang, J. G.; Liu, J.; Wang, D. H.; Choi, D.; Fifield, L. S.; Wang, C. M.; Xia, G.; Nie, Z. M.; Yang, Z. G.; Pederson, L. R.; Graff, G. Vapor-Induced Solid-Liquid-Solid Process for Silicon-Based Nanowire Growth. Journal of Power Sources 2010, 195, 1691. [Link]
27 Xiao, J.; Wang, D. H.; Xu, W.; Wang, D. Y.; Williford, R. E.; Liu, J.; Zhang, J. G. Optimization of Air Electrode for Li/Air Batteries. Journal of the Electrochemical Society 2010, 157, A487. [Link]
26 Wang, D. H.; Kou, R.; Choi, D.; Yang, Z. G.; Nie, Z. M.; Li, J.; Saraf, L. V.; Hu, D. H.; Zhang, J. G.; Graff, G. L.; Liu, J.; Pope, M. A.; Aksay, I. A. Ternary Self-Assembly of Ordered Metal Oxide-Graphene Nanocomposites for Electrochemical Energy Storage. ACS Nano 2010, 4, 1587. [Link]
25 Viswanathan, V. V.; Choi, D.; Wang, D. H.; Xu, W.; Towne, S.; Williford, R. E.; Zhang, J. G.; Liu, J.; Yang, Z. G. Effect of Entropy Change of Lithium Intercalation in Cathodes and Anodes on Li-Ion Battery Thermal Management. Journal of Power Sources 2010, 195, 3720. [Link]
24 Choi, D. W.; Wang, D. H.; Viswanathan, V. V.; Bae, I. T.; Wang, W.; Nie, Z. M.; Zhang, J. G.; Graff, G. L.; Liu, J.; Yang, Z. G.; Duong, T. Li-Ion Batteries from Lifepo4 Cathode and Anatase/Graphene Composite Anode for Stationary Energy Storage. Electrochemistry Communications 2010, 12, 378. [Link]
2009
23 Wang, C. M., Xu, W., Nie, Z. M., Choi, D., Wang, D. H., Yang, Z. G., Zhang, J. G., Thevuthasan, S., Liu, J., Baer, D. R. In-Situ and Ex-situ TEM Imaging and Spectroscopy Study of Li-Ion Battery. Microscopy and Microanalysis 2009, 15, 726. [Link]
22 Yang, Z. G.; Choi, D.; Kerisit, S.; Rosso, K. M.; Wang, D. H.; Zhang, J.; Graff, G.; Liu, J. Nanostructures and Lithium Electrochemical Reactivity of Lithium Titanites and Titanium Oxides: A Review. Journal of Power Sources 2009, 192, 588. [Link]
21 Wu, H.; Wang, J.; Kang, X. H.; Wang, C. M.; Wang, D. H.; Liu, J.; Aksay, I. A.; Lin, Y. H. Glucose Biosensor Based on Immobilization of Glucose Oxidase in Platinum Nanoparticles/Graphene/Chitosan Nanocomposite Film. Talanta 2009, 80, 403. [Link]
20 Wang, L. Q.; Wang, D. H.; Liu, J.; Exarhos, G. J.; Pawsey, S.; Moudrakovski, I. Probing Porosity and Pore Interconnectivity in Crystalline Mesoporous TiO2 Using Hyperpolarized Xe-129 Nmr. Journal of Physical Chemistry C 2009, 113, 6577. [Link]
19 Wang, D. H.; Choi, D. W.; Li, J.; Yang, Z. G.; Nie, Z. M.; Kou, R.; Hu, D. H.; Wang, C. M.; Saraf, L. V.; Zhang, J. G.; Aksay, I. A.; Liu, J. Self-Assembled TiO2-Graphene Hybrid Nanostructures for Enhanced Li-Ion Insertion. ACS Nano 2009, 3, 907. [Link]
18 Wang, C. M.; Yang, Z. G.; Thevuthasan, S.; Liu, J.; Baer, D. R.; Choi, D.; Wang, D. H.; Zhang, J. G.; Saraf, L. V.; Nie, Z. M. Crystal and Electronic Structure of Lithiated Nanosized Rutile TiO2 by Electron Diffraction and Electron Energy-Loss Spectroscopy. Applied Physics Letters 2009, 94. [Link]
17 Kou, R.; Shao, Y. Y.; Wang, D. H.; Engelhard, M. H.; Kwak, J. H.; Wang, J.; Viswanathan, V. V.; Wang, C. M.; Lin, Y. H.; Wang, Y.; Aksay, I. A.; Liu, J. Enhanced Activity and Stability of Pt Catalysts on Functionalized Graphene Sheets for Electrocatalytic Oxygen Reduction. Electrochemistry Communications 2009, 11, 954. [Link]
16 Kou, R.; Hu, Q. Y.; Wang, D. H.; John, V. T.; Yang, Z. Z.; Lu, Y. F. Direct Synthesis of Ordered Mesoporous Polymer/Carbon Nanofilaments with Controlled Mesostructures. Journal of Porous Materials 2009, 16, 315. [Link]
2008-2003
15 Wang, D. H.; Ma, Z.; Dai, S.; Liu, J.; Nie, Z. M.; Engelhard, M. H.; Huo, Q. S.; Wang, C. M.; Kou, R. Low-Temperature Synthesis of Tunable Mesoporous Crystalline Transition Metal Oxides and Applications as Au Catalyst Supports. Journal of Physical Chemistry C 2008, 112, 13499. [Link]
14 Wang, D. H.; Choi, D. W.; Yang, Z. G.; Viswanathan, V. V.; Nie, Z. M.; Wang, C. M.; Song, Y. J.; Zhang, J. G.; Liu, J. Synthesis and Li-Ion Insertion Properties of Highly Crystalline Mesoporous Rutile TiO2. Chemistry of Materials 2008, 20, 3435. [Link]
13 Liu, J.; Cao, G. Z.; Yang, Z. G.; Wang, D. H.; Dubois, D.; Zhou, X. D.; Graff, G. L.; Pederson, L. R.; Zhang, J. G. Oriented Nanostructures for Energy Conversion and Storage. ChemSusChem 2008, 1, 676. [Link]
12 Wang, D. H.; Liu, J.; Huo, Q. S.; Nie, Z. M.; Lu, W. G.; Williford, R. E.; Jiang, Y. B. Surface-Mediated Growth of Transparent, Oriented, and Well-Defined Nanocrystalline Anatase Titania Films. Journal of the American Chemical Society 2006, 128, 13670. [Link]
11 Wang, D. H.; Jakobson, H. P.; Kou, R.; Tang, J.; Fineman, R. Z.; Yu, D. H.; Lu, Y. F. Metal and Semiconductor Nanowire Network Thin Films with Hierarchical Pore Structures. Chemistry of Materials 2006, 18, 4231. [Link]
10  Wang, D. H.; Kou, R.; Yang, Z. L.; He, J. B.; Yang, Z. Z.; Lu, Y. F. Hierachical Mesoporous Silica Wires by Confined Assembly. Chemical Communications 2005, 166. [Link]
9 Wang, D. H.; Kou, R.; Gil, M. P.; Jakobson, H. P.; Tang, J.; Yu, D. H.; Lu, Y. F. Templated Synthesis, Characterization, and Sensing Application of Macroscopic Platinum Nanowire Network Electrodes. Journal of Nanoscience and Nanotechnology 2005, 5, 1904. [Link]
8 Luo, H. M.; Wang, D. H.; He, J. B.; Lu, Y. F. Magnetic Cobalt Nanowire Thin Films. Journal of Physical Chemistry B 2005, 109, 1919. [Link]
7 Wang, D. H.; Luo, H. M.; Kou, R.; Gil, M. P.; Xiao, S. G.; Golub, V. O.; Yang, Z. Z.; Brinker, C. J.; Lu, Y. F. A General Route to Macroscopic Hierarchical 3d Nanowire Networks. Angewandte Chemie-International Edition 2004, 43, 6169. [Link]
6 Pang, J. B.; Li, X.; Wang, D. H.; Wu, Z. W.; John, V. T.; Yang, Z. Z.; Lu, Y. F. Silica-Templated Continuous Mesoporous Carbon Films by a Spin-Coating Technique. Advanced Materials 2004, 16, 884. [Link]
5 Hampsey, J. E.; De Castro, C. L.; McCaughey, B.; Wang, D. H.; Mitchell, B. S.; Lu, Y. F. Preparation of Micrometer- to Sub-Micrometer-Sized Nanostructured Silica Particles Using High-Energy Ball Milling. Journal of the American Ceramic Society 2004, 87, 1280. [Link]
4 Wang, D. H.; Zhou, W. L.; McCaughy, B. F.; Hampsey, J. E.; Ji, X. L.; Jiang, Y. B.; Xu, H. F.; Tang, J. K.; Schmehl, R. H.; O'Connor, C.; Brinker, C. J.; Lu, Y. F. Electrodeposition of Metallic Nanowire Thin Films Using Mesoporous Silica Templates. Advanced Materials 2003, 15, 130. [Link]
3 Wang, D. H.; Ji, X. L.; Pang, J. B.; Hu, Q. Y.; Xu, H. F.; Lu, Y. F. Electric Field-Induced Mesostructure Transformation of Self-Assembled Silica/Copolymer Nanocomposite Thin Films. Physical Chemistry Chemical Physics 2003, 5, 4070. [Link]
2 McCaughey, B.; Costello, C.; Wang, D. H.; Hampsey, J. E.; Yang, Z. Z.; Li, C. J.; Brinker, C. J.; Lu, Y. F. Self-Assembly of Mesostructured Conjugated Poly(2,5-Thienylene Ethynylene)/Silica Nanocomposites. Advanced Materials 2003, 15, 1266. [Link]
1 Lu, Y. F.; McCaughey, B. F.; Wang, D. H.; Hampsey, J. E.; Doke, N.; Yang, Z. Z.; Brinker, C. J. Aerosol-Assisted Formation of Mesostructured Thin Films. Advanced Materials 2003, 15, 1733. [Link]