Advanced materials
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Table of contents
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Contents: Adv. Mater. 2/2008| 2008
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Dynamic Imaging of Functionalized Multi‐Walled Carbon Nanotube Systemic Circulation and Urinary ExcretionLacerda, L. / Soundararajan, A. / Singh, R. et al. | 2008
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Dynamic Imaging of Functionalized Multi-Walled Carbon Nanotube Systemic Circulation and Urinary ExcretionFNR HREF="fn1">FN ID="fn1">This work was supported by The School of Pharmacy, University of London and the United Kingdom Department and Trade & Industry (DTI) 'UK-Texas Collaborative Initiative' programme (grant QCBB-013-00057), the CNRS and the Agence Nationale de la Recherche (grant ANR-05-JCJC-0031-01), the University of Trieste and Italian MUR (PRIN 2006, prot.2006034372). L. L. acknowledges support by the Portuguese Foundation for Science and Technology (FCT-MCES) for the award of a PhD fellowship (Ref.: SFRH-BD-21845-2005). G. P. is grateful to French Ministry for Research and New Technologies for a post-doctoral fellowship (GenHomme Network 2003). This work was also supported by the European Union, NEURONANO program (NMP4-CT-2006-031847). TEM images were collected at the Microscopy Facility Platform of Esplanade Campus (IBMP, Strasbourg, France). The authors would also like to thank J. Sumner, UTHSCSA Radiology Department, for preparation of the fiLacerda, L. et al. | 2008
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One-Nanometer-Thick Seed Layer of Unilamellar Nanosheets Promotes Oriented Growth of Oxide Crystal FilmsFNR HREF="fn1">FN ID="fn1">This work was supported by CREST of the Japan Science and Technology Agency (JST). Supporting Information is available online from Wiley InterScience or from the author.Shibata, T. et al. | 2008
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One‐Nanometer‐Thick Seed Layer of Unilamellar Nanosheets Promotes Oriented Growth of Oxide Crystal FilmsShibata, T. / Fukuda, K. / Ebina, Y. et al. | 2008
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Biodegradable Colloidal Gels as Moldable Tissue Engineering ScaffoldsWang, Q. / Wang, L. / Detamore, M. S. et al. | 2008
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Biodegradable Colloidal Gels as Moldable Tissue Engineering ScaffoldsFNR HREF="fn1">FN ID="fn1">We gratefully acknowledge Prof. C. Russ Middaugh and Prof. Stevin Gehrke for the use of equipment and the Microscopy Laboratory for assistance with imaging. We are grateful for support from funding agencies such as the Juvenile Diabetes Research Foundation, the American Heart Association, the Cystic Fibrosis Foundation and the NIH (1R03 AR054035-01A1, P20 RR016443 and P20 RR015563 (C.B.) and 1R21DE017673-01A1 (M.S.D.). Supporting Information is available online from Wiley InterScience or from the authors.Wang, Q. et al. | 2008
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Controlling Morphology in Polymer–Fullerene MixturesMoulé, A. J. / Meerholz, K. et al. | 2008
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Controlling Morphology in Polymer-Fullerene MixturesFNR HREF="fn1">FN ID="fn1">We would like to acknowledge the Alexander von Humboldt foundation for the post-doctoral grant of A.M. We would also like the thank German Ministry of Science and Education (BMBF) for funding EKOS project (O3N2023D) and the ministry of Science and Innovation of Northrhine-Westfalia (Elena-project). We thank Tanja Tegeder for taking the SEM image. Supporting Information is available online from Wiley InterScience or from the authors.Moulé, A. J et al. | 2008
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An Efficient Route to Mesoporous Silica Films with Perpendicular NanochannelsNagarajan, S. / Li, M. / Pai, R. A. et al. | 2008
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An Efficient Route to Mesoporous Silica Films with Perpendicular NanochannelsFNR HREF="fn1">FN ID="fn1">The authors thank the Materials Research Science and Engineering Center (MRSEC) (DMR-0213695) and the National Science Foundation Center for Hierachical Manufacturing (NSF-CHM) (CMMI-0531171) at the University of Massachusetts, Amherst & National Science Foundation Nanoscale Interdisciplinary Research Team Program (NSF-NIRT) (CTS-0304159) for financial support. This work was partially supported by the Cornell Center for Materials Research (CCMR), a Materials Research Science and Engineering Center of the National Science Foundation (DMR-0079992) and made use of the CCMR Electron Microscopy Facility. The Cornell High Energy Synchrotron Source (CHESS) is a national user facility supported by the National Science Foundation and the National Institutes of Health-National Institute of General Medical Sciences under award DMR-0225180. Supporting Information is available online from Wiley InterScience or from the authors.Nagarajan, S. et al. | 2008
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Polarized Luminescence from Aligned Samples of Nematogenic Lanthanide ComplexesGalyametdinov, Y. G. / Knyazev, A. A. / Dzhabarov, V. I. et al. | 2008
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Polarized Luminescence from Aligned Samples of Nematogenic Lanthanide ComplexesFNR HREF="fn1">FN ID="fn1">T.C. and K.D. are postdoctoral fellows of the FWO-Flanders (Belgium). This work was performed within the framework of a bilateral grant between Flanders and Russia (BIL 05-31), and of the Russian grants RFBR 05-03-34818 MF_a and 07-03-12163-ofi. Additional financial support by the K.U.Leuven (project GOA 03-03) and by the FWO-Flanders (project G.0508.07) is gratefully acknowledged. CHN analyses were performed by Dirk Henot.Galyametdinov, Y. G et al. | 2008
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Self‐Supported Formation of Needlelike Co3O4 Nanotubes and Their Application as Lithium‐Ion Battery ElectrodesLou, X. W. / Deng, D. / Lee, J. Y. et al. | 2008
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Self-Supported Formation of Needlelike Co3O4 Nanotubes and Their Application as Lithium-Ion Battery ElectrodesFNR HREF="fn1">FN ID="fn1">We thank Mr. Yasuyuki Kiya and Prof. H. D. Abruña for useful discussions about electrochemical data. We are grateful to the National Science Foundation (DMR 0404278) for supporting this study. Facilities available through the Cornell Center for Materials Research (CCMR), and Cornell Integrated Microscopy Center (CIMC) were used for this study. Supporting Information is available online from Wiley InterScience or from the authors.Lou, X. W et al. | 2008
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Fabrication of Oriented Multilayers of Photosystem I Proteins on Solid Surfaces by Auto‐MetallizationFrolov, L. / Wilner, O. / Carmeli, C. et al. | 2008
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Fabrication of Oriented Multilayers of Photosystem I Proteins on Solid Surfaces by Auto-MetallizationFNR HREF="fn1">FN ID="fn1">Thanks are due to L. Frolov and O. Wilner for equal contribution to this work and to the Institute of Nano Science and Nanotechnology of Tel Aviv University for use of facilities. Supporting Information is available online from Wiley InterScience or from the author.Frolov, L. et al. | 2008
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Preparation and Surface Activity of Single-Crystalline NiO(111) Nanosheets with Hexagonal Holes: A Semiconductor NanospannerFNR HREF="fn1">FN ID="fn1">The authors would like to thank Jacobs University Bremen and South Central University for Nationalities for financial and infrastructure support. Supporting Information is available online from Wiley InterScience or from the author.Hu, J. et al. | 2008
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Preparation and Surface Activity of Single‐Crystalline NiO(111) Nanosheets with Hexagonal Holes: A Semiconductor NanospannerHu, J. / Zhu, K. / Chen, L. et al. | 2008
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Superelasticity and Shape Memory in Micro‐ and Nanometer‐scale PillarsSan Juan, J. / Nó, M. L. / Schuh, C. A. et al. | 2008
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Superelasticity and Shape Memory in Micro- and Nanometer-scale PillarsFNR HREF="fn1">FN ID="fn1">J.S.J. thanks the University of the Basque Country and the Spanish Ministry of Science and Education, for the Sabbatical license and the Mobility Grant to stay at MIT. This work was supported by the project MAT2004-03166, from the Spanish Ministry of Science and Education, and the ETORTEK-ACTIMAT-05 project of the Basque Government. C.A.S. acknowledges the support of the US Office of Naval Research, grant N00014-04-1-0669.San Juan, J. et al. | 2008
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Sequence‐Dependent Fluorescence of DNA‐Hosted Silver NanoclustersGwinn, E. G. / O'Neill, P. / Guerrero, A. J. et al. | 2008
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Sequence-Dependent Fluorescence of DNA-Hosted Silver NanoclustersFNR HREF="fn1">FN ID="fn1">Supported by a UCSB Academic seed grant (E.G.) and by NSF-CCF-622257 (D.B. and D.K.F.). P.O'N. acknowledges support as a GK-12 Fellow (NSF-DGE-0440576). Supporting Information is available online from Wiley InterScience or from the authors.Gwinn, E. G et al. | 2008
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Self‐Assembly of a Micrometers‐Long One‐Dimensional Network of Cemented Au NanoparticlesMaheshwari, V. / Kane, J. / Saraf, R. F. et al. | 2008
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Self-Assembly of a Micrometers-Long One-Dimensional Network of Cemented Au NanoparticlesFNR HREF="fn1">FN ID="fn1">We thank the National Science Foundation (NER 608877) for financial support and Dr. X.Z. Li, University of Nebraska-Lincoln, for help with TEM. Supporting Information is available online from Wiley InterScience or from the author.Maheshwari, V. et al. | 2008
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Synthesis and Catalytic Applications of Self‐Assembled Carbon NanofoamsGarcía‐Martínez, J. / Lancaster, T. M. / Ying, J. Y. et al. | 2008
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Synthesis and Catalytic Applications of Self-Assembled Carbon NanofoamsFNR HREF="fn1">FN ID="fn1">This work was sponsored by the Singapore-MIT Alliance. J.G.M. is grateful to the Ministerio de Educación, Cultura y Deportes de España for a Ramón y Cajal contract. T.M.L. appreciates the support of a National Science Foundation Graduate Fellowship. Supporting Information is available on line at Wiley InterScience or from the author.García-Martínez, J. et al. | 2008
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Nanofluidic Bipolar TransistorsFNR HREF="fn1">FN ID="fn1">Irradiation with swift heavy ions was performed at the Gesellschaft fuer Schwerionenforschung (GSI), Darmstadt, Germany. We thank the Alfred P. Sloan Foundation and the Institute for Complex Adaptive Matter for financial support.Kalman, E. B et al. | 2008
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Nanofluidic Bipolar TransistorsKalman, E. B. / Vlassiouk, I. / Siwy, Z. S. et al. | 2008
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Thermophysical Properties of Conjugated PolyelectrolytesOrtony, J. H. / Yang, R. Q. / Brzezinski, J. Z. et al. | 2008
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Thermophysical Properties of Conjugated PolyelectrolytesFNR HREF="fn1">FN ID="fn1">This work was supported by the National Science Foundation (DMR 0547639 and DMR 0606414).Ortony, J. H et al. | 2008
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Stress‐Driven Surface Topography Evolution in Nanocrystalline Al Thin FilmsGianola, D. S. / Eberl, C. / Cheng, X. M. et al. | 2008
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Stress-Driven Surface Topography Evolution in Nanocrystalline Al Thin FilmsFNR HREF="fn1">FN ID="fn1">This work was supported by an NSF NIRT Program (Grant No. DMR-0210215). We thank Prof. Chia-Ling Chien for generously allowing the use of the AFM facility and Dr. Budhika Mendis for valuable comments and discussion.Gianola, D. S et al. | 2008
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Fabrication and Field‐Emission Properties of Large‐Area Nanostructures of the Organic Charge‐Transfer Complex Cu‐TCNAQCui, S. / Li, Y. / Guo, Y. et al. | 2008
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Fabrication and Field-Emission Properties of Large-Area Nanostructures of the Organic Charge-Transfer Complex Cu-TCNAQFNR HREF="fn1">FN ID="fn1">This work was supported by the National Nature Science Foundation of China (20531060, 20473102, 20421101, and 20571078) and the National Basic Research 973 Program of China (Grant No. 2006CB932100 and 2005CB623602). Supporting Information is available online from Wiley InterScience or from the authors.Cui, S. et al. | 2008
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Photoswitchable Organic NanofibersFNR HREF="fn1">FN ID="fn1">We gratefully acknowledge financial support from the Regional Strategic Project "Ponamat" and R. Stabile for the SEM investigation.Di Benedetto, F. et al. | 2008
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Photoswitchable Organic NanofibersDi Benedetto, F. / Mele, E. / Camposeo, A. et al. | 2008
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Growth of Thick MgB2 Films by Impinging‐Jet Hybrid Physical‐Chemical Vapor DepositionLamborn, D. R. / Wilke, R. H. T. / Li, Q. et al. | 2008
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Growth of Thick MgB2 Films by Impinging-Jet Hybrid Physical-Chemical Vapor DepositionFNR HREF="fn1">FN ID="fn1">This work was sponsored by the Office of Naval Research under grant numbers N00014-06-1-1019 (Redwing) and N00014-07-1-0079 (Xi) and the National Science Foundation under grant numbers DMR-0306746 (Xi and Redwing), DMR-0405502 (Li), and DMR-0405502 (Xi). The authors wish to acknowledge the assistance provided by Nichole Wonderling of the Materials Characterization Laboratory, Penn State University, for her assistance in the X-ray measurements.Lamborn, D. R et al. | 2008
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Tandem Organic Light-Emitting Diode using Hexaazatriphenylene Hexacarbonitrile in the Intermediate ConnectorFNR HREF="fn1">FN ID="fn1">We gratefully acknowledge K. Klubek for providing us with F4-TCNQ material. We also thank M. Wojcik-Cross, R. Miller, M. Culver, D. Neill, and D. Arnold for their technical assistances.Liao, L. S et al. | 2008
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Tandem Organic Light‐Emitting Diode using Hexaazatriphenylene Hexacarbonitrile in the Intermediate ConnectorLiao, L. S. / Slusarek, W. K. / Hatwar, T. K. et al. | 2008
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Direct Delivery and Submicrometer Patterning of DNA by a Nanofountain ProbeKim, K.‐H. / Sanedrin, R. G. / Ho, A. M. et al. | 2008
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Direct Delivery and Submicrometer Patterning of DNA by a Nanofountain ProbeFNR HREF="fn1">FN ID="fn1">This work was supported primarily by the Nanoscale Science and Engineering Initiative of the National Science Foundation under NSF Award Number EEC-0118025. HDE acknowledges the support provided by the National Science Foundation through NIRT project No. CMS00304472. CAM acknowledges the AFOSR, ARO, and DARPA for generous support. CAM is also grateful for a NIH Director's Pioneer Award. The authors acknowledge the Microfabrication Applications Laboratory (MAL) of the University of Illinois at Chicago, the Cornell NanoScale Science & Technology Facility (CNF) of Cornell University, the Materials Processing and Crystal Growth Facility (MPCGF) of Northwestern University, Northwestern University Atomic- and Nanoscale Characterization Experimental Center (NUANCE), and the Electron Microscopy Center (EMC) of Argonne National Laboratory for the fabrication and characterization facilities.Kim, K.-H. et al. | 2008
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An New Avenue to Nonfouling MaterialsFNR HREF="fn1">FN ID="fn1">This work is supported by the Office of Naval Research (N000140410409).Chen, S. et al. | 2008
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An New Avenue to Nonfouling MaterialsChen, S. / Jiang, S. et al. | 2008
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In Situ Self‐Assembly of Thin ZnO Nanoplatelets into Hierarchical Mesocrystal Microtubules with Surface Grafting of Nanorods: A General Strategy towards Hollow Mesocrystal StructuresMo, M.‐S. / Lim, S. H. / Mai, Y.‐W. et al. | 2008
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In Situ Self-Assembly of Thin ZnO Nanoplatelets into Hierarchical Mesocrystal Microtubules with Surface Grafting of Nanorods: A General Strategy towards Hollow Mesocrystal StructuresFNR HREF="fn1">FN ID="fn1">M.-S. Mo acknowledges a start-up grant (Project No. U2141) from the University of Sydney. Y.-W. Mai wishes to acknowledge the award of an Australian Federation Fellowship by the Australian Research Council tenable at the University of Sydney. We thank the referees of this paper for constructive comments. Supporting Information is available online from Wiley InterScience or from the author.Mo, M.-S. et al. | 2008
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Inkjet Printing of Narrow Conductive Tracks on Untreated Polymeric SubstratesFNR HREF="fn1">FN ID="fn1">The research of J.P. forms part of the research program (#546) of the Dutch Polymer Institute (DPI). We would like to thank Chris Hendriks for his contribution, Martin Schoepler (Dimatix-Fujifilm) for providing us the one picoliter cartridges, and the Dutch Polymer Institute for financial support.van Osch, T. H J et al. | 2008
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Inkjet Printing of Narrow Conductive Tracks on Untreated Polymeric Substratesvan Osch, T. H. J. / Perelaer, J. / de Laat, A. W. M. et al. | 2008
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Chemical Nanostructures of Multifunctional Self‐Assembled MonolayersHerzer, N. / Hoeppener, S. / Schubert, U. S. et al. | 2008
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Chemical Nanostructures of Multifunctional Self-Assembled MonolayersFNR HREF="fn1">FN ID="fn1">N.H., S.H., and U.S.S. acknowledge the financial support of the Dutch Science Council (NWO) (VICI grant awarded to U.S.S.) and the group of Dr. A. L. Rogach, Ludwig Maximilians University, Munich, is kindly acknowledged for providing the Au nanoparticles. Supporting Information is available online from Wiley InterScience or from the authors.Herzer, N. et al. | 2008
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Potassium Tungsten Bronze Nanowires: Polarized Micro‐Raman Scattering of Individual Nanowires and Electron Field Emission from Nanowire FilmsZheng, Z. / Yan, B. / Zhang, J. et al. | 2008
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Potassium tungsten bronze nanowires: Polarized micro-Raman scattering of individual nanowires and electron field emission from nanowires filmsZheng, Zhe / Yan, Bin / Zhang, Jixuan et al. | 2008
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Conductive Carbon Nanotube Composite MicroprobesYaglioglu, O. / Martens, R. / Hart, A. J. et al. | 2008
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Conductive Carbon Nanotube Composite MicroprobesFNR HREF="fn1">FN ID="fn1">This work was funded in part by an NSF Grant (No. DMI-0521985) and in part by an Ignition Grant from the MIT Deshpande Center for Technological Innovation. A. J. Hart is grateful for a Fannie and John Hertz Foundation Fellowship. We are also thankful to Prof. Y. M. Chiang for sharing his laboratory facilities for our nanotube growth experiments, to Prof. B. Wardle for his comments, and to Manu Prakash for his assistance with laser cutting.Yaglioglu, O. et al. | 2008
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Sparse Multiwall Carbon Nanotube Electrode Arrays for Liquid‐Crystal Photonic DevicesWilkinson, T. D. / Wang, X. / Teo, K. B. K. et al. | 2008
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Sparse Multiwall Carbon Nanotube Electrode Arrays for Liquid-Crystal Photonic DevicesFNR HREF="fn1">FN ID="fn1">The authors would like to thank Advanced Nanotech for their support of this work.Wilkinson, T. D et al. | 2008
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Book Review: Thin Film Solar Cells. Fabrication, Characterization and Applications. By Jef Poortmans and Vladimir Arkhipov (Eds.).Christiansen, Silke H. / Falk, Fritz et al. | 2008
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Book Review: Encyclopedia of Electrochemistry, Volume 10. Volume 10: Modified Electrodes. By Allen J. Bard, Martin Stratmann, Israel Rubinstein, Masamichi Fujihara, and James F. Rusling (Eds.).Bartlett, Phil et al. | 2008
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Author Index and Subject Index Adv. Mater. 2/2008| 2008
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Cover Picture: Dynamic Imaging of Functionalized Multi‐Walled Carbon Nanotube Systemic Circulation and Urinary Excretion (Adv. Mater. 2/2008)Lacerda, L. / Soundararajan, A. / Singh, R. et al. | 2008
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Inside Front Cover: Controlling Morphology in Polymer–Fullerene Mixtures (Adv. Mater. 2/2008)Moulé, A. J. / Meerholz, K. et al. | 2008