Hydrogels in biology and medicine: From molecular principles to Bionanotechnology (Englisch)
- Neue Suche nach: Peppas, Nicholas A.
- Neue Suche nach: Hilt, J. Zach
- Neue Suche nach: Khademhosseini, Ali
- Neue Suche nach: Langer, Robert
- Neue Suche nach: Peppas, Nicholas A.
- Neue Suche nach: Hilt, J. Zach
- Neue Suche nach: Khademhosseini, Ali
- Neue Suche nach: Langer, Robert
In:
Advanced Materials, Weinheim
;
18
, 11
;
1345-1360
;
2006
-
ISSN:
- Aufsatz (Zeitschrift) / Print
-
Titel:Hydrogels in biology and medicine: From molecular principles to Bionanotechnology
-
Beteiligte:Peppas, Nicholas A. ( Autor:in ) / Hilt, J. Zach ( Autor:in ) / Khademhosseini, Ali ( Autor:in ) / Langer, Robert ( Autor:in )
-
Erschienen in:Advanced Materials, Weinheim ; 18, 11 ; 1345-1360
-
Verlag:
-
Erscheinungsdatum:2006
-
Format / Umfang:16 Seiten, 10 Bilder, 158 Quellen
-
ISSN:
-
Coden:
-
DOI:
-
Medientyp:Aufsatz (Zeitschrift)
-
Format:Print
-
Sprache:Englisch
-
Schlagwörter:Biochip , Biomedizin , Biopolymer , Biosensor , Biosensorik , Dünnschicht , Fibrin , halbdurchlässige Membran , Hydrogel , hydrophile Eigenschaft , hydrophile Faser , Imprinting-Technik , intelligenter Werkstoff , ionensensitiver Sensor , Kollagen , Medikamentensteuerung , Medikamentenverabreichung , Mikro-Array , nanostrukturierter Werkstoff , organischer Werkstoff , Peptid , Polyhydroxyethylmethacrylsäureester , Polymer , Querbindung , Stützgewebe (Biologie) , therapeutische Wertigkeit , Therapieunterstützung , Vernetzungsdichte , Zellmembran , Quantenpunkt , therapeutisches Protein
-
Datenquelle:
Inhaltsverzeichnis – Band 18, Ausgabe 11
Zeige alle Jahrgänge und Ausgaben
Die Inhaltsverzeichnisse werden automatisch erzeugt und basieren auf den im Index des TIB-Portals verfügbaren Einzelnachweisen der enthaltenen Beiträge. Die Anzeige der Inhaltsverzeichnisse kann daher unvollständig oder lückenhaft sein.
- 1335
-
Contents: Adv. Mater. 11/2006| 2006
- 1344
-
Chiroptical Properties Induced in Chiral Photonic‐Bandgap Liquid Crystals Leading to a Highly Efficient Laser‐Feedback EffectFurumi, S. / Sakka, Y. et al. | 2006
- 1345
-
Hydrogels in Biology and Medicine: From Molecular Principles to BionanotechnologyPeppas, N. A. / Hilt, J. Z. / Khademhosseini, A. / Langer, R. et al. | 2006
- 1345
-
Hydrogels in Biology and Medicine: From Molecular Principles to Bionanotechnology. Work described in this review was supported in part by the NIH grants HL60435 (for RL) EB000246 and GM56321 (for NAP), the Draper laboratory, the Institute of Soldier Nanotechnology (DAAD-19-02D-002), NSF (DGE-03-33080, BES-97-06538 and CTS-03-29317), as well as the Fletcher S. Pratt Foundation.Peppas, N.A et al. | 2006
- 1361
-
Control over the Crystalline State of SapphireJuodkazis, S. / Nishimura, K. / Misawa, H. / Ebisui, T. / Waki, R. / Matsuo, S. / Okada, T. et al. | 2006
- 1365
-
Rigid, Self‐Assembled Hydrogel Composed of a Modified Aromatic DipeptideMahler, A. / Reches, M. / Rechter, M. / Cohen, S. / Gazit, E. et al. | 2006
- 1365
-
Rigid, Self-Assembled Hydrogel Composed of a Modified Aromatic Dipeptide. E.G. acknowledges the support of the TAU Nanoscience and Nanotechnology Project funded by Clal Industries and of the Israel Science Foundation (FIRST program). S.C. acknowledges the support of the Israel Science Foundation. We thank Dr.Z.Barkay for her help with HR-SEM analysis, Dr.Y.Delarea for his help with TEM experiments, Dr.E.Klein and Dr.I.Popov for E-SEM analysis and Dr.M.Karpasas for rheology measurements. We also thank Dr.A.Solomon and Prof.A.Barzilai and his lab members for in vitro experimentation support, and finally, members of the Gazit laboratory for helpful discussions. A. M. and M. R. contributed equally to this work.Mahler, A. et al. | 2006
- 1371
-
Phase Separation of Polyfluorene‐Based Blend Films and Its Influence on Device OperationsXia, Y. / Friend, R. H. et al. | 2006
- 1371
-
Phase Separation of Polyfluorene-Based Blend Films and Its Influence on Device Operations. We thank Dr.Chris Newsome for helpful discussions. Y. Xia thanks Seiko-Epson for financial support.Xia, Y. et al. | 2006
- 1377
-
Kinetics and Mechanism of Atomic Force Microscope Local Oxidation on Hydrogen‐Passivated Silicon in Inert Organic SolventsKinser, C. R. / Schmitz, M. J. / Hersam, M. C. et al. | 2006
- 1377
-
Kinetics and Mechanism of Atomic Force Microscope Local Oxidation on Hydrogen-Passivated Silicon in Inert Organic Solvents. The authors acknowledge support from the Nanoscale Science and Engineering Initiative of the National Science Foundation under NSF Award Numbers EEC-0118025 and DMR-0134706, the Army Research Office Young Investigator Program under ARO Award Number W911NF-05-1-0177, and the Northwestern University Institute for Bionanotechnology in Medicine. One of the authors (C.R.K.) acknowledges funding from a National Defense Science and Engineering Graduate Fellowship and an NSF Graduate Fellowship. Another author (M.C.H.) acknowledges an Alfred P. Sloan Research Fellowship.Kinser, C.R et al. | 2006
- 1381
-
Using a Layer‐by‐Layer Assembly Technique to Fabricate Multicolored‐Light‐Emitting Films of CdSe@CdS and CdTe Quantum DotsLin, Y.‐W. / Tseng, W.‐L. / Chang, H.‐T. et al. | 2006
- 1381
-
Using a Layer-by-Layer Assembly Technique to Fabricate Multicolored-Light-Emitting Films of CdSe@CdS and CdTe Quantum Dots. This work was supported by the National Science Council of Taiwan under contract number NSC94-2113-M-002-008. We thank the Center for Information and Electronic Technologies at National Taiwan University for allowing us to conduct the AFM measurements and perform the photolithographic patterning of the QD films. Supporting Information is available online from Wiley InterScience or from the author.Lin, Y.-W. et al. | 2006
- 1387
-
Self-Assembly Process to Integrate and Connect Semiconductor Dies on Surfaces with Single-Angular Orientation and Contact-Pad Registration. This work was supported by the National Science Foundation (grant ECS-0300263 and ECS-0601454.Zheng, W. et al. | 2006
- 1387
-
Self‐Assembly Process to Integrate and Connect Semiconductor Dies on Surfaces with Single‐Angular Orientation and Contact‐Pad RegistrationZheng, W. / Jacobs, H. O. et al. | 2006
- 1393
-
Protein-Coated Porous-Silicon Photonic Crystals for Amplified Optical Detection of Protease Activity. This project has been funded in part with Federal funds from the Air Force Office of Scientific Research (Grant# F49620-02-1-0288) and the National Science Foundation (Grant# DMR-0503006). M.J.S. is a member of the Moores UCSD Cancer Center and the UCSD NanoTUMOR Center under which this research was conducted and partially supported by NIH grant U54 CA119335. C.P. thanks the Deutsche Forschungsgemeinschaft (PA925-1-1) for a postdoctoral fellowship. The authors thank Anne Ruminski for experimental assistance and Prof.Farooq Azam for helpful discussions. Supporting Information is available online from Wiley InterScience or from the author.Orosco, M.M et al. | 2006
- 1393
-
Protein‐Coated Porous‐Silicon Photonic Crystals for Amplified Optical Detection of Protease ActivityOrosco, M. M. / Pacholski, C. / Miskelly, G. M. / Sailor, M. J. et al. | 2006
- 1397
-
Reversible Conductance Switching of Single Diarylethenes on a Gold SurfaceKatsonis, N. / Kudernac, T. / Walko, M. / van der Molen, S. J. / van Wees, B. J. / Feringa, B. L. et al. | 2006
- 1397
-
Reversible Conductance Switching of Single Diarylethenes on a Gold Surface. We thank P.Rudolf for use of an X-ray photoelectron spectrometer and J.Salomon for help with developing the Octave routine. This work was supported by the Koerber Foundation (Hamburg), Material Science Center (MSC+), Stichting F.O.M. and NWO via a PIONIER grant. Supporting Information is available online from Wiley InterScience or from the author.Katsonis, N. et al. | 2006
- 1401
-
Electromechanical Polymer Gels Combining Rubber Elasticity with Electronic Conduction. We are pleased to acknowledge Prof.H.Stone for his critical reading of the manuscript.Pépin-Donat, B. et al. | 2006
- 1401
-
Electromechanical Polymer Gels Combining Rubber Elasticity with Electronic ConductionPépin‐Donat, B. / Viallat, A. / Blachot, J.‐F. / Lombard, C. et al. | 2006
- 1406
-
Using a Core–Sheath Distribution of Surface Chemistry through 3D Tissue Engineering Scaffolds to Control Cell IngressBarry, J. J. A. / Howard, D. / Shakesheff, K. M. / Howdle, S. M. / Alexander, M. R. et al. | 2006
- 1406
-
Using a Core-Sheath Distribution of Surface Chemistry through 3D Tissue Engineering Scaffolds to Control Cell Ingress. We thank Rachel Wilson, Dr. Felicity Rose, Dr. Pauline Lee, Mr. P.A. Fields, and Mr. R.G. Wilson for their help and advice. We thank the EPSRC for financial support (J.J.A.B., SRIF funding and the EPSRC grant (GR-R47851-01) to purchase and run the XPS instrument housed in the School of Chemistry, University of Nottingham). S.M.H. is a Royal Society Wolfson Research Merit Award Holder. Sven Tougaard is acknowledged for his help in using the QUASES program to analyze the N1s background shape. Supporting Information is available online from Wiley InterScience or from the author.Barry, J.J A et al. | 2006
- 1411
-
Porphyrin Molecular Nanodevices Wired Using Single-Walled Carbon Nanotubes. This work was supported by Grants-in-Aid for Scientific Research (Nos. 15201028 and 14654135) from the Ministry of Education, Culture, Sports, Science, and Technology of Japan. One of the authors (HT) thanks Visionarts Inc. and Ishikawa Carbon Foundation for financial support. Supporting Information, including details of the synthesis and UV-vis characterization, is available online from Wiley InterScience or from the author.Tanaka, H. et al. | 2006
- 1411
-
Porphyrin Molecular Nanodevices Wired Using Single‐Walled Carbon NanotubesTanaka, H. / Yajima, T. / Matsumoto, T. / Otsuka, Y. / Ogawa, T. et al. | 2006
- 1416
-
High‐Mobility Ambipolar Transport in Organic Light‐Emitting TransistorsDinelli, F. / Capelli, R. / Loi, M. A. / Murgia, M. / Muccini, M. / Facchetti, A. / Marks, T. J. et al. | 2006
- 1416
-
High-Mobility Ambipolar Transport in Organic Light-Emitting Transistors. The authors thank R.Zamboni for stimulating discussions and P.Fancello for technical support. This work was supported at Bologna by the EU under the project FP6-IST-015034 (OLAS) and by the Italian Ministry MIUR under the project FIRB-RBNE033KMA ("Composti molecolari e materiali ibridi nanostrutturati con proprietà ottiche risonanti e non risonanti per dispositivi fotonici"), and at Northwestern by the NASA Institute for Nanoelectronics and Computing (NCC2-3163) and NSF through the Northwestern MRSEC (DMR-0076097).Dinelli, F. et al. | 2006
- 1421
-
High Lithium Electroactivity of Nanometer‐Sized Rutile TiO2Hu, Y.‐S. / Kienle, L. / Guo, Y.‐G. / Maier, J. et al. | 2006
- 1421
-
High Lithium Electroactivity of Nanometer-Sized Rutile TiO2. We thank G.Götz, V.Duppel, A.Fuchs, and Dr.R.E. Dinnebier for their technical support; Drs.P. Balaya, R.Merkle, and P.Zapol for helpful discussions; and Dr.S. Hore for reading the manuscript. We are indebted to the MPG-ENERCHEM Project. We also acknowledge the valuable remarks from the reviewers. Supporting Information is available online from Wiley InterScience or from the authors.Hu, Y.-S. et al. | 2006
- 1427
-
Solution and Surface Composition Gradients via Microfluidic Confinement: Fabrication of a Statistical‐Copolymer‐Brush Composition GradientXu, C. / Barnes, S. E. / Wu, T. / Fischer, D. A. / DeLongchamp, D. M. / Batteas, J. D. / Beers, K. L. et al. | 2006
- 1427
-
Solution and Surface Composition Gradients via Microfluidic Confinement: Fabrication of a Statistical-Copolymer-Brush Composition Gradient. Contribution of the National Institute of Standards and Technology. Not subject to copyright in the United States. This work was carried out in the NIST Combinatorial Methods Center (NCMC). More information can be found at URL XML-LINK="SIMPLE" HREF="http: www.nist.gov-combi">www.nist.gov-combi. D.M.D. acknowledges the NIST-NRC fellowship program for funding and thanks Sharadha Sambasivan of NIST for her help. Equipment and instruments or materials are identified in the paper to adequately specify the experimental details. Such identification does not imply recommendation by NIST, nor does it imply the materials are necessarily the best available for the purpose.Xu, C. et al. | 2006
- 1431
-
Testing Carbon‐Coated VOx Prepared via Reaction under Autogenic Pressure at Elevated Temperature as Li‐Insertion MaterialsOdani, A. / Pol, V. G. / Pol, S. V. / Koltypin, M. / Gedanken, A. / Aurbach, D. et al. | 2006
- 1431
-
Testing Carbon-Coated VOx Prepared via Reaction under Autogenic Pressure at Elevated Temperature as Li-Insertion Materials. Partial support for this work was obtained from the European Commission within the framework of the 5th Program (The Nanobatt project).Odani, A. et al. | 2006
- 1437
-
Vapor-Phase Synthesis and Characterization of e-FeSi NanowiresOuyang, L. / Thrall, E. S. / Deshmukh, M. M. / Park, H. et al. | 2006
- 1437
-
Vapor-phase synthesis and characterization of epsilon-FeSi nanowiresOuyang, Lian / Thrall, Elizabeth S. / Deshmukh, Mandar M. / Park, Hongkun et al. | 2006
- 1437
-
Vapor‐Phase Synthesis and Characterization of ϵ‐FeSi NanowiresOuyang, L. / Thrall, E. S. / Deshmukh, M. M. / Park, H. et al. | 2006
- 1437
-
Vapor-Phase Synthesis and Characterization of -FeSi Nanowires. This work was supported by the National Science Foundation and the Packard Foundation. We thank Dr.J.Wu, Q.Gu for helpful discussions, and Dr D.Bell, Y.Lu for technical assistance. Supporting Information is available online from Wiley InterScience or from the author.Ouyang, L. et al. | 2006
- 1441
-
Fabrication of a Superhydrophobic Surface from the Amplified Exponential Growth of a MultilayerJi, J. / Fu, J. / Shen, J. et al. | 2006
- 1441
-
Fabrication of a Superhydrophobic Surface from the Amplified Exponential Growth of a Multilayer. Financial support from the Natural Science Foundation of China (NSFC-50373036), the 863 National High-Tech R&D Program (2001AA326030), the Fok Ying Tung Education Foundation (J20040212), and the Minister of Education is gratefully acknowledged. The authors thank Prof.J.Q.Sun (Jilin University) and F.Shi (Qinhua University) for beneficial discussions and assistance with the QCM, TEM, and sliding angle measurements. Supporting Information is available online from Wiley InterScience or from the author.Ji, J. et al. | 2006
- 1445
-
Large Electric Polarization and Exchange Bias in Multiferroic BiFeO3Dho, J. / Qi, X. / Kim, H. / MacManus‐Driscoll, J. L. / Blamire, M. G. et al. | 2006
- 1445
-
Large Electric Polarization and Exchange Bias in Multiferroic BiFeO3. This work was supported by Samsung Electronics and the UK Engineering and Physical Sciences Research Council.Dho, J. et al. | 2006
- 1449
-
Defect-Induced Ferromagnetism in Co-doped ZnO. This work was supported by the EPSRC, UK.Khare, N. et al. | 2006
- 1449
-
Defect‐Induced Ferromagnetism in Co‐doped ZnOKhare, N. / Kappers, M. J. / Wei, M. / Blamire, M. G. / MacManus‐Driscoll, J. L. et al. | 2006
- 1453
-
Fast and Spatially Resolved Environmental Probing Using Stimuli-Responsive Polymer Layers and Fluorescent Nanocrystals. We thank J.Kerssemakers and J.Helenius for help with the experimental work and J.Feldmann for helpful discussions, as well as K.-J.Eichhorn and R.Schulze for support with the ellipsometry. Andor Technology (Belfast, Northern Ireland) is greatly acknowledged for the generous loan of the high-speed EMCCD camera. The authors are grateful to the DFG (grant SPP 1164) and the BMBF (grant 03N8712) for financial support. S.Sapra is thankful to the Humboldt-Foundation for funding his research stay in Germany.Ionov, L. et al. | 2006
- 1453
-
Fast and Spatially Resolved Environmental Probing Using Stimuli‐Responsive Polymer Layers and Fluorescent NanocrystalsIonov, L. / Sapra, S. / Synytska, A. / Rogach, A. L. / Stamm, M. / Diez, S. et al. | 2006
- 1458
-
Periodical Variation of Electronic Properties in Polyhydroxylated Metallofullerene MaterialsTang, J. / Xing, G. / Zhao, Y. / Jing, L. / Gao, X. / Cheng, Y. / Yuan, H. / Zhao, F. / Chen, Z. / Meng, H. et al. | 2006
- 1458
-
Periodical Variation of Electronic Properties in Polyhydroxylated Metallofullerene Materials. The authors acknowledge funding from the Chinese National Natural Science Foundation (10490180 and 20571076), the National Science Fund for Distinguished Young Scholars (10525524), the Ministry of Science and Technology (2005CB724703), and the major direction program of the Chinese Academy of Sciences (KJCX-SW-H12). Part of this work was carried out at the Beijing synchrotron radiation facility.Tang, J. et al. | 2006
- 1463
-
Alginate‐Based Nanofibrous Scaffolds: Structural, Mechanical, and Biological PropertiesBhattarai, N. / Li, Z. / Edmondson, D. / Zhang, M. et al. | 2006
- 1463
-
Alginate-Based Nanofibrous Scaffolds: Structural, Mechanical, and Biological Properties. This work is supported by the University of Washington Engineered Biomaterials Research Center (NSF-EEC 9529161). The authors thank KevinSoderlund for making mechanical parts for electrospinning and mechanical test devices and Yii-JuangChen and AbrahamKim for lab assistance.Bhattarai, N. et al. | 2006
- 1468
-
Thin Films of Metallic Carbon Nanotubes Prepared by DielectrophoresisKrupke, R. / Linden, S. / Rapp, M. / Hennrich, F. et al. | 2006
- 1468
-
Thin Films of Metallic Carbon Nanotubes Prepared by Dielectrophoresis. R.K. acknowledges funding by the Initiative and Networking Fund of the Helmholtz-Gemeinschaft Deutscher Forschungszentren (HGF) and discussions with C.Marquardt, S.Blatt, and M.Oron-Carl.Krupke, R. et al. | 2006
- 1471
-
Polymers Move in Response to LightJiang, H. Y. / Kelch, S. / Lendlein, A. et al. | 2006
- 1476
-
Book Review: The Nano-Micro Interface: Bridging the Micro and Nano Worlds. By Hans-Jorg Fecht and Matthias Werner (Eds.)Emrick, T. S. et al. | 2006
- 1476
-
Book Review: The Nano–Micro Interface: Bridging the Micro and Nano Worlds. By Hans‐Jörg Fecht and Matthias Werner (Eds.)Emrick, Todd S. et al. | 2006
- 1477
-
Author Index and Subject Index Adv. Mater. 11/2006| 2006
-
Inside Front Cover: Rigid, Self‐Assembled Hydrogel Composed of a Modified Aromatic Dipeptide (Adv. Mater. 11/2006)Mahler, A. / Reches, M. / Rechter, M. / Cohen, S. / Gazit, E. et al. | 2006
-
Cover Picture: Using a Core–Sheath Distribution of Surface Chemistry through 3D Tissue Engineering Scaffolds to Control Cell Ingress (Adv. Mater. 11/2006)Barry, J. J. A. / Howard, D. / Shakesheff, K. M. / Howdle, S. M. / Alexander, M. R. et al. | 2006