Thin‐Walled Carbon Nanocages: Direct Growth, Characterization, and Applications (Englisch)
- Neue Suche nach: Sheng, Z. M.
- Neue Suche nach: Wang, J. N.
- Neue Suche nach: Sheng, Z. M.
- Neue Suche nach: Wang, J. N.
In:
Advanced Materials
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20
, 5
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1071-1075
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2008
- Aufsatz (Zeitschrift) / Elektronische Ressource
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Titel:Thin‐Walled Carbon Nanocages: Direct Growth, Characterization, and Applications
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Beteiligte:Sheng, Z. M. ( Autor:in ) / Wang, J. N. ( Autor:in )
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Erschienen in:Advanced Materials ; 20, 5 ; 1071-1075
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Verlag:
- Neue Suche nach: WILEY‐VCH Verlag
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Erscheinungsdatum:05.03.2008
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Format / Umfang:5 pages
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ISSN:
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DOI:
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Medientyp:Aufsatz (Zeitschrift)
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Format:Elektronische Ressource
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Sprache:Englisch
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Schlagwörter:
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Datenquelle:
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Contents: Adv. Mater. 5/2008| 2008
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Novel Complex Nanostructure from Directed Assembly of Block Copolymers on Incommensurate Surface PatternsKim, S. O. / Kim, B. H. / Meng, D. / Shin, D. O. / Koo, C. M. / Solak, H. H. / Wang, Q. et al. | 2008
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Nanobiomaterials and Nanoanalysis: Opportunities for Improving the Science to Benefit Biomedical TechnologiesGrainger, D. W. / Castner, D. G. et al. | 2008
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Nanobiomaterials and Nanoanalysis: Opportunities for Improving the Science to Benefit Biomedical TechnologiesFNR HREF="fn1">FN ID="fn1">Commentary from R. Finke (Colorado State University), H. Ghandehari (University of Maryland) and D. Furgeson (University of Wisconsin) is greatly appreciated. Technical assistance from Dr. Hironobu Takahashi is acknowledged. Support from NESAC-BIO (NIH Grant No. EB-002027), NIH Grant EB-001473 and NIH Grant GM-074511 is gratefully acknowledged.Grainger, D. W et al. | 2008
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Thermodynamics and Kinetic Processes of Polymer Blends and Block Copolymers in the Presence of Pressurized Carbon DioxideWalker, T. A. / Frankowski, D. J. / Spontak, R. J. et al. | 2008
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Thermodynamics and Kinetic Processes of Polymer Blends and Block Copolymers in the Presence of Pressurized Carbon DioxideFNR HREF="fn1">FN ID="fn1">This study was supported by the Kenan Center for the Utilization of Carbon Dioxide in Manufacturing and the STC Program of the National Science Foundation under Agreement No. CHE-9 876 674. We thank Mr. M. Seyam for editorial assistance.Walker, T. A et al. | 2008
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DNA Block Copolymer Micelles – A Combinatorial Tool for Cancer NanotechnologyAlemdaroglu, F. E. / Alemdaroglu, N. C. / Langguth, P. / Herrmann, A. et al. | 2008
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DNA Block Copolymer Micelles - A Combinatorial Tool for Cancer NanotechnologyFNR HREF="fn1">FN ID="fn1">This work, as part of the European Science Foundation EUROCORES Programme BIONICS, was supported by funds from the DFG and the EC Sixth Framework Programme. Additional funding was provided through the ERA-CHEMISTRY programme and the DFG-Sonderforschungsbereich 625 "From Single Molecules to Nanostructured Materials". NCA would like to thank Deutscher Akademischer Austausch Dienst (DAAD) for the financial support. The authors would like to thank Dr. Kaloian Koynov for the CLSM pictures and Beate Müller for the DLS measurements. Supporting Information is available online from Wiley InterScience or from the authors.Alemdaroglu, F. E et al. | 2008
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Rare-Earth-Doped Nanocrystalline Titania Microspheres Emitting Luminescence via Energy TransferFNR HREF="fn1">FN ID="fn1">This work was supported by the RGC Research Grant Direct Allocation (Project Code: 2060285) and the NSFC-RGC Joint Research Scheme (Ref. No.: N_CUHK448-06, Project Code: 2900318). Supporting Information is available online from Wiley InterScience or from the authors.Li, L. et al. | 2008
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Rare‐Earth‐Doped Nanocrystalline Titania Microspheres Emitting Luminescence via Energy TransferLi, L. / Tsung, C.‐K. / Yang, Z. / Stucky, G. D. / Sun, L. D. / Wang, J. F. / Yan, C. H. et al. | 2008
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Epitaxial Transition Metal Oxide Nanostructures Fabricated by a Combination of AFM Lithography and Molybdenum Lift‐OffSuzuki, N. / Tanaka, H. / Kawai, T. et al. | 2008
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Epitaxial Transition Metal Oxide Nanostructures Fabricated by a Combination of AFM Lithography and Molybdenum Lift-OffFNR HREF="fn1">FN ID="fn1">This work was supported by the Core Research for Evolutional Science and Technology (CREST) of the Japan Science and Technology Agency (JST). The authors thank Dr. Takanori Tanaka, Dr. Masaki Kanai, Dr. Issei Sato, and Dr. Yoshihiko Yanagisawa (ISIR Osaka University) for supporting the experiments being reported in this work.Suzuki, N. et al. | 2008
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Multicolor Polymer Nanocomposites: In Situ Synthesis and Fabrication of 3D MicrostructuresSun, Z.‐B. / Dong, X.‐Z. / Chen, W.‐Q. / Nakanishi, S. / Duan, X.‐M. / Kawata, S. et al. | 2008
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Multicolor Polymer Nanocomposites: In Situ Synthesis and Fabrication of 3D MicrostructuresFNR HREF="fn1">FN ID="fn1">This research has been funded by the 100 Overseas Talents Program, the Knowledge Innovation Program of the Chinese Academy of Sciences under Grant No. KJCX2.YW.M04, the National Natural Science Foundation of China under Grant No. 50 773 091, and the CREST project of the Japan Science and Technology Agency.Sun, Z.-B. et al. | 2008
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Mobility and Dynamics of Charge Carriers in Rubrene Single Crystals Studied by Flash‐Photolysis Microwave Conductivity and Optical SpectroscopySaeki, A. / Seki, S. / Takenobu, T. / Iwasa, Y. / Tagawa, S. et al. | 2008
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Mobility and Dynamics of Charge Carriers in Rubrene Single Crystals Studied by Flash-Photolysis Microwave Conductivity and Optical SpectroscopyFNR HREF="fn1">FN ID="fn1">Supporting Information is available online from Wiley InterScience or from the author.Saeki, A. et al. | 2008
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Write Current Reduction in Transition Metal Oxide Based Resistance Change MemoryFNR HREF="fn1">FN ID="fn1">B.H.P. acknowledges support from the Samsung Advanced Institute of Technology, Grant No. 2007-00 632 from the Nuclear R&D Program of the Korea Science & Engineering Foundation, Korean Research Foundation Grant No. KRF-2004-005-D00 046, Seoul R&BD Program, Konkuk University, and the Notional Research Program for the 0.1 Terabit Non-volatile Memory Development sponsored by the Korea Ministry of Commerce, Industry, and Energy.Ahn, S.-E. et al. | 2008
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Write Current Reduction in Transition Metal Oxide Based Resistance Change MemoryAhn, S.‐E. / Lee, M.‐J. / Park, Y. / Kang, B. S. / Lee, C. B. / Kim, K. H. / Seo, S. / Suh, D.‐S. / Kim, D.‐C. / Hur, J. et al. | 2008
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A Simple and Efficient Route to Transparent NanocompositesFNR HREF="fn1">FN ID="fn1">Financial support from Merck KGaA, Darmstadt, is gratefully acknowledged. We also thank Gunnar Glasser and Katrin Kirchhoff for the SEM and TEM measurements. Supporting Information is available online from Wiley InterScience or from the author.Stelzig, S. H et al. | 2008
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A Simple and Efficient Route to Transparent NanocompositesStelzig, S. H. / Klapper, M. / Müllen, K. et al. | 2008
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Minimally Invasive Protein Delivery with Rapidly Dissolving Polymer MicroneedlesSullivan, S. P. / Murthy, N. / Prausnitz, M. R. et al. | 2008
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Minimally Invasive Protein Delivery with Rapidly Dissolving Polymer MicroneedlesFNR HREF="fn1">FN ID="fn1">We thank Harvinder Gill, Michael Heffernan, Jung-Hwan Park and Genggeng Qi for helpful discussions. MRP is the Emerson-Lewis Faculty Fellow. This work was carried out at the Institute for Bioengineering and Bioscience and the Center for Drug Design, Development and Delivery at Georgia Tech. This work was supported in part by the Southeast Regional Center of Excellence for Emerging Infections and Biodefense and the National Institutes of Health.Sullivan, S. P et al. | 2008
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Light-Induced Charge Transfer in Pyrene-CdSe-SWNT HybridsFNR HREF="fn1">FN ID="fn1">This work was supported by NSF Grant DMR-0404029, the Microelectronics Advanced Research Corporation (MARCO) and its Focus Center Research Program (FCRP) - Center on Functional Engineered Nano Architectonics (FENA), the Defense Advanced Research Projects Agency (DARPA), and the Center for Nanoscale Innovation for Defense (CNID). Supporting Information is available online at Wiley InterScience or from the author.Hu, L. et al. | 2008
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Light‐Induced Charge Transfer in Pyrene/CdSe‐SWNT HybridsHu, L. / Zhao, Y.‐L. / Ryu, K. / Zhou, C. / Stoddart, J. F. / Grüner, G. et al. | 2008
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Room‐Temperature Growth of Uniform Tellurium Nanorods and the Assembly of Tellurium or Fe3O4 Nanoparticles on the NanorodsYuan, J. / Schmalz, H. / Xu, Y. / Miyajima, N. / Drechsler, M. / Möller, M. W. / Schacher, F. / Müller, A. H. E. et al. | 2008
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Room-Temperature Growth of Uniform Tellurium Nanorods and the Assembly of Tellurium or Fe3O4 Nanoparticles on the NanorodsFNR HREF="fn1">FN ID="fn1">The authors acknowledge the Deutsche Forschungsgemeinschaft (SPP 1165) for financial support. We thank Dr. Wolfgang Milius for the help with JCPDS files and Dr. Mingfu Zhang and Dr. Saikat Mandal for helpful discussions. Supporting Information is available online from Wiley InterScience or from the authors.Yuan, J. et al. | 2008
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Structural Phase Coexistence under Reversible Thermal ControlFNR HREF="fn1">FN ID="fn1">This work was supported in part by the National Science Foundation-CAREER, National Academies Keck Foundation Futures Initiative, Pennsylvania Infrastructure Technology Alliance, the Department of Energy-Genome to Life, and the Beckman Young Investigators Program (P.R.L.). C.-M. C. was supported in part by a PhD Research Scholarship from Taiwan and the Dowd-ICES Scholarship from Carnegie Mellon University, USACheng, C.-M. et al. | 2008
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Structural Phase Coexistence under Reversible Thermal ControlCheng, C.‐M. / LeDuc, P. R. et al. | 2008
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Growth-Mode-Induced Narrowing of Optical Spectra of an Organic AdlayerFNR HREF="fn1">FN ID="fn1">The authors acknowledge financial support from the Deutsche Forschungsgemeinschaft (grants No. FR875-6, FR875-9, and MA3342-1). We are also grateful to H. Hartmann of TU Dresden and K. Schmidt of Georgia Institute of Technology for valuable discussions of the optical findings. Supporting Information is available online from Wiley InterScience or from the author.Dienel, T. et al. | 2008
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Growth‐Mode‐Induced Narrowing of Optical Spectra of an Organic AdlayerDienel, T. / Loppacher, C. / Mannsfeld, S. C. B. / Forker, R. / Fritz, T. et al. | 2008
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Enhancing the Performance of Polymer Light‐Emitting Diodes by Integrating Self‐Assembled Organic NanowiresNiu, Q. / Zhou, Y. / Wang, L. / Peng, J. / Wang, J. / Pei, J. / Cao, Y. et al. | 2008
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Enhancing the Performance of Polymer Light-Emitting Diodes by Integrating Self-Assembled Organic NanowiresFNR HREF="fn1">FN ID="fn1">This research was financially supported by the Major State Basic Research Development Program from the Minister of Science and Technology (No. 2006CB921 602 and 2002CB613 400) and by the National Natural Science Foundation of China (Nos. 20 574 021, 50 433 030, 50 673 002, 20 521 202, 20 425 207, and 20 632 020).Niu, Q. et al. | 2008
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Stable Bionic Superhydrophobic Coating Surface Fabricated by a Conventional Curing ProcessLuo, Z. Z. / Zhang, Z. Z. / Hu, L. T. / Liu, W. M. / Guo, Z. G. / Zhang, H. J. / Wang, W. J. et al. | 2008
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Stable Bionic Superhydrophobic Coating Surface Fabricated by a Conventional Curing ProcessFNR HREF="fn1">FN ID="fn1">The authors thank the National 973 Project (no. 2007 CB607601, W. Liu) and the Nature Science Foundation of China (no. 50575218, L. H., and no. 50721062, W. L.) for financial support, and Prof. Miao Chen for instructive and fruitful discussions. Supporting Information is available online from Wiley InterScience or from the authors.Luo, Z. Z et al. | 2008
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Charge Trapping at the Dielectric of Organic Transistors Visualized in Real Time and SpaceFNR HREF="fn1">FN ID="fn1">We thank H. R. J. ter Veen of Calipso BV for performing LEIS measurements and P. A. van Hal, A. J. G. Mank and R. Coehoorn for the stimulating discussions. The authors gratefully acknowledge financial support from the EC (Project PolyApply IST-IP-507143). This research is supported by the Dutch Technology Foundation STW, applied science division of NWO and the Technology Program of the Ministry of Economic Affairs.Mathijssen, S. G J et al. | 2008
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Charge Trapping at the Dielectric of Organic Transistors Visualized in Real Time and SpaceMathijssen, S. G. J. / Kemerink, M. / Sharma, A. / Cölle, M. / Bobbert, P. A. / Janssen, R. A. J. / de Leeuw, D. M. et al. | 2008
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Electric‐Field‐Assisted Growth of Highly Uniform and Oriented Gold Nanotriangles on Conducting Glass SubstratesSajanlal, P. R. / Pradeep, T. et al. | 2008
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Electric-Field-Assisted Growth of Highly Uniform and Oriented Gold Nanotriangles on Conducting Glass SubstratesFNR HREF="fn1">FN ID="fn1">We thank Department of Science and Technology, Government of India for constantly supporting our research program on nanomaterials. Thanks are due to Dr. T. Tsukuda, Institute of Molecular Science, Okazaki, Japan for allowing the use of his AFM facility for the DFM measurements. C. Subramaniam is thanked for assistance. Supporting Information is available online from Wiley InterScience or from the authors.Sajanlal, P. R et al. | 2008
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Macroporous Lanthanide-Organic Coordination Polymer Foams and Their Corresponding Lanthanide OxidesFNR HREF="fn1">FN ID="fn1">This work was supported by NSFC (Grant No. 20373029) and NCET of Ministry of Education of China. Supporting Information is available online from Wiley InterScience or from the authors.Shen, Z. et al. | 2008
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Macroporous Lanthanide‐Organic Coordination Polymer Foams and Their Corresponding Lanthanide OxidesShen, Z. / Zhang, G. / Zhou, H. / Sun, P. / Li, B. / Ding, D. / Chen, T. et al. | 2008
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Self‐Assembly of Cell–Microparticle HybridsKrishnamachari, Y. / Pearce, M. E. / Salem, A. K. et al. | 2008
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Self-Assembly of Cell-Microparticle HybridsFNR HREF="fn1">FN ID="fn1">This work was supported by the American Cancer Society under grant number IRG-77-004-28.Krishnamachari, Y. et al. | 2008
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Direct Gas‐Phase Synthesis of Heterostructured Nanoparticles through Phase Separation and Surface SegregationXu, Y.‐H. / Wang, J.‐P. et al. | 2008
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Direct Gas-Phase Synthesis of Heterostructured Nanoparticles through Phase Separation and Surface SegregationFNR HREF="fn1">FN ID="fn1">We thank the NanoBiotechnology Initiative of the University of Minnesota for partial financial support of this work. Some of this work was carried out at the Minnesota Characterization Facility, which is partially supported by the NSF through the NNIN program and through NSF BME 0730825. The authors thank Dr. S. McKernan and Dr. J. Basu for help with TEM analysis, Dr. J. Thomas for assistance with XPS analysis, Dr. C. Leighton for SQUID usage, and Dr. Jianmin Bai and Dr. Jiaoming Qiu for stimulating discussions. Supporting Information is available online from Wiley InterScience or from the author.Xu, Y.-H. et al. | 2008
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Trapping Metallic Liquid Mercury in a Carbon Shell by the Decomposition of Dimethyl MercuryGedanken, A. / Luvchik, E. / Calderon‐Moreno, J. M. / Veglio, N. / Tamarit, J. L. I. et al. | 2008
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Trapping Metallic Liquid Mercury in a Carbon Shell by the Decomposition of Dimethyl MercuryFNR HREF="fn1">FN ID="fn1">Supporting Information is available online from Wiley InterScience or from the authors.Gedanken, A. et al. | 2008
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CH-p Interactions as the Driving Force for Silicone-Based Nanocomposites with Exceptional PropertiesBeigbeder, A. / Linares, M. / Devalckenaere, M. / Degee, P. / Claes, M. / Beljonne, D. / Lazzaroni, R. / Dubois, P. et al. | 2008
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CH‐π Interactions as the Driving Force for Silicone‐Based Nanocomposites with Exceptional PropertiesBeigbeder, A. / Linares, M. / Devalckenaere, M. / Degée, P. / Claes, M. / Beljonne, D. / Lazzaroni, R. / Dubois, P. et al. | 2008
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CH-&pgr; Interactions as the Driving Force for Silicone-Based Nanocomposites with Exceptional PropertiesFNR HREF="fn1">FN ID="fn1">The authors thank Nanocyl S.A. (Sambreville, Belgium) for kindly providing the carbon nanotubes. This work was financially supported by "Région Wallonne" and the European Commission (FEDER and FSE programs) within the framework of "Phasing out Materia Nova", and the "Belgian Federal Government Science Policy Office" in the frame of the "Functional Supramolecular Systems" PAI-6-27. D.B is a senior research fellow of FNRS. A. B. thanks the European Commission for financial support in the frame of AMBIO Integrated Project (6th FP). Supporting Information is available online from Wiley InterScience or from the authors.Beigbeder, A. et al. | 2008
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A Solution Chemistry Approach for the Selective Formation of Ultralong Nanowire Bundles of Crystalline Cd(OH)2 on SubstratesShinde, V. R. / Shim, H.‐S. / Gujar, T. P. / Kim, H. J. / Kim, W. B. et al. | 2008
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A Solution Chemistry Approach for the Selective Formation of Ultralong Nanowire Bundles of Crystalline Cd(OH)2 on SubstratesFNR HREF="fn1">FN ID="fn1">This work was supported by the Hydrogen Energy R&D Center, a 21st century Frontier R&D Program funded by the Ministry of Science and Technology of Korea. VRS acknowledges support from the BK-21 Program. Supporting Information is available online from Wiley InterScience or from the author.Shinde, V. R et al. | 2008
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A Switchable NLO Organic-Inorganic Compound Based on Conformationally Chiral Disulfide Molecules and Bi(III)I5 Iodobismuthate NetworksFNR HREF="fn1">FN ID="fn1">We thank the Pays-de-la-Loire region for a post-doctoral fellowship to W. Bi.Bi, W. et al. | 2008
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A Switchable NLO Organic‐Inorganic Compound Based on Conformationally Chiral Disulfide Molecules and Bi(III)I5 Iodobismuthate NetworksBi, W. / Louvain, N. / Mercier, N. / Luc, J. / Rau, I. / Kajzar, F. / Sahraoui, B. et al. | 2008
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Mobile Ionic Impurities in Poly(vinyl alcohol) Gate Dielectric: Possible Source of the Hysteresis in Organic Field‐Effect TransistorsEgginger, M. / Irimia‐Vladu, M. / Schwödiauer, R. / Tanda, A. / Frischauf, I. / Bauer, S. / Sariciftci, N. S. et al. | 2008
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Mobile Ionic Impurities in Poly(vinyl alcohol) Gate Dielectric: Possible Source of the Hysteresis in Organic Field-Effect TransistorsFNR HREF="fn1">FN ID="fn1">The authors thank R. Fuss (Kuraray Specialities Europe) for supplying various PVA materials and M. Himmelsbach and B. Ernecker (Institute for Analytical Chemistry, University of Linz) for their valuable support during AAS measurements. This work has been financially supported by the Austrian Science Foundation "FWF" within the National Research Network NFN on Organic Devices (S097 12000 and S097 11000).Egginger, M. et al. | 2008
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Pentacene‐Zinc Oxide Vertical Diode with Compatible Grains and 15‐MHz RectificationPal, B. N. / Sun, J. / Jung, B. J. / Choi, E. / Andreou, A. G. / Katz, H. E. et al. | 2008
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Pentacene-Zinc Oxide Vertical Diode with Compatible Grains and 15-MHz RectificationFNR HREF="fn1">FN ID="fn1">We are grateful to the Air Force Office of Scientific Research (Award number FA9550-06-01-0076) for partial support of this research.Pal, B. N et al. | 2008
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Positive Temperature Coefficient of Resistivity in Donor‐Doped BaTiO3 Ceramics derived from Nanocrystals synthesized at Low TemperatureBrutchey, R. L. / Cheng, G. / Gu, Q. / Morse, D. E. et al. | 2008
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Positive Temperature Coefficient of Resistivity in Donor-Doped BaTiO3 Ceramics derived from Nanocrystals synthesized at Low TemperatureFNR HREF="fn1">FN ID="fn1">This work was supported in part by grants from the U.S. Army CERDEC contract W15P7T-06-A402, U.S. Dept. of Energy (DE-FG03-02ER46006), the Institute for Collaborative Biotechnologies through grant DAAD19-03-D-0004 from the U.S. Army Research Office, and the MRSEC Program of the National Science Foundation under award DMR05-20415 to the UCSB Materials Research Laboratory. We thank Dr. Hisashi Tsukamoto for his inspiration and guidance, and Dr. Ed Plichta for his support that together made this work possible.Brutchey, R. L et al. | 2008
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Structural Control of Surfactant‐Templated Mesoporous Silica Formed Inside Columnar Alumina PoresYamaguchi, A. / Kaneda, H. / Fu, W. / Teramae, N. et al. | 2008
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Structural Control of Surfactant-Templated Mesoporous Silica Formed Inside Columnar Alumina PoresFNR HREF="fn1">FN ID="fn1">This work was partially supported by Grants-in-Aid for Scientific Research (Nos. 17205009) from the Ministry of Education, Culture, Sports, Science and Technology, Japan. W.F. would like to thank JSPS (Japan Society for the Promotion of Science) for a fellowship. We thank Mr. Shun Ito, Analytical Research Core for Advanced Materials, Institute for Material Research, Tohoku University, for TEM measurements. Supporting Information is available online from Wiley InterScience or from the authors.Yamaguchi, A. et al. | 2008
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Controlled Integration of Nanocrystals in Inverted Hexagonal Nano‐Pits at the Surface of Light‐Emitting Heterostructuresde Sousa Pereira, S. M. / Martins, M. A. / Trindade, T. / Watson, I. M. / Zhu, D. / Humphreys, C. J. et al. | 2008
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Controlled Integration of Nanocrystals in Inverted Hexagonal Nano-Pits at the Surface of Light-Emitting HeterostructuresFNR HREF="fn1">FN ID="fn1">S. Pereira thanks financial support from Fundação Calouste Gulbenkian, and fruitful discussions with Profs. J. Rocha, V. Amaral, L. D. Carlos, and M. R. Correia. Dr. I. M. Watson acknowledges the UK EPSRC for support under Platform Grant EP-D078555.de Sousa Pereira, S. M et al. | 2008
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Self‐Organized TiO2 Nanotube Array Sensor for the Determination of Chemical Oxygen DemandZheng, Q. / Zhou, B. / Bai, J. / Li, L. / Jin, Z. / Zhang, J. / Li, J. / Liu, Y. / Cai, W. / Zhu, X. et al. | 2008
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Self-Organized TiO2 Nanotube Array Sensor for the Determination of Chemical Oxygen DemandFNR HREF="fn1">FN ID="fn1">The authors would like to acknowledge the National Nature Science Foundation of China (No.20 677 039), Shanghai Commission for Science and Technology (No.05nm05 004), and the Program of New Century Excellent Talents in University (No.NCET-04-0406) for financial support.Zheng, Q. et al. | 2008
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Non‐Aqueous Sol–Gel Approach towards the Controllable Synthesis of Nickel Nanospheres, Nanowires, and NanoflowersJia, F. L. / Zhang, L. Z. / Shang, X. Y. / Yang, Y. et al. | 2008
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Non-Aqueous Sol-Gel Approach towards the Controllable Synthesis of Nickel Nanospheres, Nanowires, and NanoflowersFNR HREF="fn1">FN ID="fn1">L.Z.Z. acknowledges financial support from the National Basic Research Program of China (973 Program) (Grant 2007CB613 301), National Science Foundation of China (Grant Nos. 20 777 026 and 20 503 009), and Program for New Century Excellent Talents in University. (Grant NCET-07-0352). F.L.J. acknowledges financial support from the Open Fund of the Key Laboratory of Catalysis and Materials Science of the State Ethnic Affairs Commission & Ministry of Education, Hubei Province (Grant CHCL07 003). Supporting Information is available online from Wiley InterScience or from the author.Jia, F. L et al. | 2008
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Formation of Nb2O5 Nanotube Arrays Through Phase Transformation**FNR HREF="fn1">FN ID="fn1">We gratefully acknowledge the financial support of the program for New Century Excellent Talents in University (Grant No. NCET-05-0278), the National Natural Science Foundation of China (Grant No. 20471012), a Foundation for the Author of National Excellent Doctoral Dissertation of P. R. China (Grant No. 200322), and the Research Fund for the Doctoral Program of Higher Education (Grant No. 20040141004). Supporting Information is available online from Wiley InterScience or from the author.Yan, C. et al. | 2008
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Formation of Nb2O5 Nanotube Arrays Through Phase Transformation**Yan, C. / Xue, D. et al. | 2008
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Hollow TiO2 Hemispheres Obtained by Colloidal Templating for Application in Dye‐Sensitized Solar CellsYang, S.‐C. / Yang, D.‐J. / Kim, J. / Hong, J.‐M. / Kim, H.‐G. / Kim, I.‐D. / Lee, H. et al. | 2008
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Hollow TiO2 Hemispheres Obtained by Colloidal Templating for Application in Dye-Sensitized Solar CellsFNR HREF="fn1">FN ID="fn1">S.-C. Y. and D.-J. Y. contributed equally to this work. H. L. acknowledges the financial support of this work by the KIST internal project under contract 2E20000. The authors thank Dr. Dong Young Kim for the IPCE measurement and Dr. Nam.-Gyu Park for the use of the solar simulator and EIS measurement. I.-D. Kim appreciates Prof. Avner Rothschild at the Technion Institute in Israel for the helpful discussions. Supporting Information is available online from Wiley InterScience or from the authors.Yang, S.-C. et al. | 2008
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Control of Electric Field Strength and Orientation at the Donor-Acceptor Interface in Organic Solar CellsFNR HREF="fn1">FN ID="fn1">This work was supported by BASF AG. The authors would like to thank W. Jaegermann for UPS data on BPE-PTCDI.Liu, A. et al. | 2008
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Control of Electric Field Strength and Orientation at the Donor–Acceptor Interface in Organic Solar CellsLiu, A. / Zhao, S. / Rim, S.‐B. / Wu, J. / Könemann, M. / Erk, P. / Peumans, P. et al. | 2008
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Thin‐Walled Carbon Nanocages: Direct Growth, Characterization, and ApplicationsSheng, Z. M. / Wang, J. N. et al. | 2008
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Thin-Walled Carbon Nanocages: Direct Growth, Characterization, and ApplicationsFNR HREF="fn1">FN ID="fn1">J.N.W. thanks the Outstanding Youth Fund from the National Natural Science Foundation of China and the National 863 Project of 2007AA05Z128 from The Ministry of Science and Technology of China. Supporting Information is available online from Wiley InterScience or from the author.Sheng, Z. M et al. | 2008
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Author Index and Subject Index Adv. Mater. 5/2008| 2008
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Inside Front Cover: Mobility and Dynamics of Charge Carriers in Rubrene Single Crystals Studied by Flash‐Photolysis Microwave Conductivity and Optical Spectroscopy (Adv. Mater. 5/2008)Saeki, A. / Seki, S. / Takenobu, T. / Iwasa, Y. / Tagawa, S. et al. | 2008
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Controlled Integration of Nanocrystals in Inverted Hexagonal Nano‐Pits at the Surface of Light‐Emitting Heterostructures (Adv. Mater. 5/2008)de Sousa Pereira, S. M. / Martins, M. A. / Trindade, T. / Watson, I. M. / Zhu, D. / Humphreys, C. J. et al. | 2008