ADVANCED MATERIALS -DEERFIELD BEACH THEN WEINHEIM-
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Ambipolar Transport in Organic Conjugated MaterialsFNR HREF="fn1">FN ID="fn1">The authors thank D. Beljonne, L. L. Chua, V. Coropceanu, X. Crispin, D. A. da Silva Filho, R. H. Friend, C. D. Frisbie, Y. Geerts, P. K. Ho, B. Kippelen, M. Malagoli, Y. Olivier, M. A. Ratner, and W. R. Salaneck for fruitful collaborations and discussions. The work in Mons is partly supported by the Belgian Federal Government "Interuniversity Attraction Pole in Supramolecular Chemistry and Catalysis, PAI 5-3" the Région Wallonne (Project ETIQUEL) the European Integrated Project NAIMO (NMP4-CT-2004-500355) and the Belgian National Fund for Scientific Research (FNRS-FRFC). The work in Georgia Tech has been partly supported by the National Science Foundation (through the STC Program under Award Number DMR-0120967, the MRSEC Program under Award Number DMR-0212302, the CRIF Program under Award CHE-0443564, and grant CHE-0342321), the Office of Naval Research, the Georgia Tech "Center on Organic Photonics and Electronics (COPE)", and Solvay. The work in Cambridge has been
Epitaxial Growth of Indium Arsenide Nanowires on Silicon Using Nucleation Templates Formed by Self-Assembled Organic CoatingsFNR HREF="fn1">FN ID="fn1">This work was carried out within the Nanometer Structure Consortium in Lund and was supported by grants from the Swedish Research Council (VR), the Swedish Foundation for Strategic Research (SSF), the Knut and Alice Wallenberg Foundation, the NoE SANDiE (EU contract No E500101-2), and the IP NODE (EU contract No 015783 NODE). We thank L. E. Wernersson, C. Rehnstedt, B. A. Wacaser, K. A. Dick, Z. Geretovszky, E. Wintersberger, and B. Mandl for valuable contributions. Supporting Information is available online from Wiley InterScience or from the authors.
Growth of Single Crystals of MgCNi3FNR HREF="fn1">FN ID="fn1">This work is supported by the KOSEF (Korea Science and Engineering Foundation) through the Creative Research Initiative Program.
Engineered Microcapsules Fabricated from Reconstituted Spider SilkFNR HREF="fn1">FN ID="fn1">The authors would like to thank Hendrik Dietz for his help with the AFM measurements, Gerrit Vliegenthart and Gerhard Gompper for useful discussions, and Markus Harasim. The work was supported by the DFG (BA 2029-5 (A.R.B.) and SCHE 603-4-1 (T.S.)) and the support of the Nanosystems Initiative Munich (NIM) is gratefully acknowledged. K.D.H. was supported by the Alexander von Humboldt Foundation.
Fabrication of Oligonucleotide Chips by Using Parallel Cantilever-Based Electrochemical Deposition in Picoliter VolumesFNR HREF="fn1">FN ID="fn1">This work was partially supported by the EC-funded project NaPa (Contract no. NMP4-CT-2003-500120).
High Field-Effect Mobilities for Diblock Copolymers of Poly(3-hexylthiophene) and Poly(methyl acrylate)FNR HREF="fn1">FN ID="fn1">We are grateful to Rui Zhang for the TMAFM images, and to Suresh Santhanam, Jessica Cooper, Dr. Mihaela Iovu, Prof. Tomask Kowalewski, Bo Li, and Prof. David Greve for their help at various stages of this work. Financial support was provided by the National Science Foundation (CHE0415369).
A Novel Strategy for Two-Photon Holographic Recording: Stepwise Two-Photon Absorption of &agr;-Quinquethiophene Followed by Energy Transfer to an Aryl AzideFNR HREF="fn1">FN ID="fn1">This work was supported by a Grant-in-Aid for Special Coordination Funds for Promoting Science and Technology from the Ministry of Education, Culture, Sports, Science and Technology of Japan.
A Novel Strategy for Two-Photon Holographic Recording: Stepwise Two-Photon Absorption of a-Quinquethiophene Followed by Energy Transfer to an Aryl Azide
Shimizu, M.
/ Schelper, M.
/ Mochida, K.et al.
| 2007
A novel strategy for two-photon holographic recording: Stepwise two-photon absorption of alpha-quinquethiophene followed by energy transfer to an aryl azide
A Novel Strategy for Two‐Photon Holographic Recording: Stepwise Two‐Photon Absorption of α‐Quinquethiophene Followed by Energy Transfer to an Aryl Azide
Shimizu, M.
/ Schelper, M.
/ Mochida, K.et al.
| 2007
Gas-Sorption Selectivity of CUK-1: A Porous Coordination Solid Made of Cobalt(II) and Pyridine-2,4- Dicarboxylic AcidFNR HREF="fn1">FN ID="fn1">This work was supported by KRICT for the Institutional Research Program (J.S.C.), MOCIE for the Research Center for Nanocatalysts, and the EPSRC for funding (S.M.H.). We would like to thank Dr. D. Y. Hong (KRICT), Dr. P. M Forster (Stony Brook University), and Dr. C. Serre (Institut Lavoisier) for helpful discussions, and G. F. Weldon (Cambridge, Synthesis) and M. E. Grass (Berkeley) for verification of sorption data. Supporting Information is available online from Wiley InterScience or from the author.
Enhancing the Photovoltage of Polymer Solar Cells by Using a Modified CathodeFNR HREF="fn1">FN ID="fn1">We thank Dr. Mattias Svensson and Prof. Mats R. Andersson at Chalmers University for providing us with polymer, and Jens Andersson in our group for the measurement of the thickness of the PEO layer. This work is financially supported by the Swedish Ministry of Education through the National Graduate School for Materials Science, the Swedish Research Council, and the Center of Organic Electronics.
Twinned Zn2TiO4 Spinel Nanowires Using ZnO Nanowires as a TemplateFNR HREF="fn1">FN ID="fn1">Sponsorship from a Research Grant Manpower Fund of Nanyang Technological University (RGM 21-04) and a Science and Engineering Research Council Grant from the Agency for Science, Technology and Research (A*STAR) (#0421010010), Singapore, is gratefully acknowledged.
Eu-doped Boron Nitride Nanotubes as a Nanometer-Sized Visible-Light SourceFNR HREF="fn1">FN ID="fn1">The authors thank Dr. Cheng Huang and other staff at ANU EMU for their assistance with microscopy analysis. This work is supported in part by research grants awarded by The Australian Research Council.
From Well-Defined Carbon-Rich Precursors to Monodisperse Carbon Particles with Hierarchic StructuresFNR HREF="fn1">FN ID="fn1">This work was financially supported by the Deutsche Forschungsgemeinschaft (SFB 625) and the Max Planck Society through the progam ENERCHEM. We thank Prof. G. J. Bodwell and Dr. K. Plunkett for their help in the preparation of the manuscript. Supporting Information is available online from Wiley InterScience or from the authors.
Ultrafine Single-Crystalline Gold Nanowire Arrays by Oriented AttachmentFNR HREF="fn1">FN ID="fn1">The authors would like to acknowledge financial support from DST Nanoscience Initiative and CSIR, Govt. of India. A.H. acknowledges CSIR for a student fellowship. A.H. and N.R. thank Dr. Michael Rajamathi and Dr. Vijay Shenoy for discussions. The Tecnai F30 TEM is a part of the National Microscopy Facility at the Institute Nanoscience Initiative, Indian Institute of Science.
White Electroluminescence from a Single Polymer System: Improved Performance by Means of Enhanced Efficiency and Red-Shifted Luminescence of the Blue-Light-Emitting SpeciesFNR HREF="fn1">FN ID="fn1">This work is supported by the National Natural Science Foundation of China (no. 20574067 and no. 50633040), Science Fund for Creative Research Groups (no. 20621401), and 973 Project (2002CB613402). Supporting Information is available online from Wiley InterScience or from the author.
White Electroluminescence from a Single Polymer System: Improved Performance by Means of Enhanced Efficiency and Red‐Shifted Luminescence of the Blue‐Light‐Emitting Species
High Carrier Mobility of Organic Field-Effect Transistors with a Thiophene-Naphthalene Mesomorphic SemiconductorFNR HREF="fn1">FN ID="fn1">The authors thank Mr. T. Kurauchi (Osaka University) for fruitful discussions related to XRD and FET measurements. Supporting Information is available from Wiley InterScience of from the author.
High-Pressure Multianvil Synthesis and Structure Refinement of Oxygen-Bearing Cubic Zirconium(IV) NitrideFNR HREF="fn1">FN ID="fn1">We thank D. Trots for fruitful discussions concerning the Rietveld refinement method. The financial support of the Deutsche Forschungsgemeinschaft (Bonn, Germany) is gratefully acknowledged.
A High-Performance Magnetic Resonance Imaging T2 Contrast AgentFNR HREF="fn1">FN ID="fn1">This work has been partially supported by the European Commission 6th Framework Program (InnoMed LSHB-CT-2005-518170) (Swedish group) and in part by the ARC Program of the French Community (00-05-258) and of the Region of Wallonia (NOMADE Project) (Belgian group). Supporting Information is available online from Wiley InterScience or from the authors.
Cover Picture: Epitaxial Growth of Indium Arsenide Nanowires on Silicon Using Nucleation Templates Formed by Self‐Assembled Organic Coatings (Adv. Mater. 14/2007)
Mårtensson, T.
/ Wagner, J. B.
/ Hilner, E.et al.
| 2007