Verfügbarkeit: Hierarchical micro-nanostructured materials

Hierarchical micro-nanostructured materials: fabrication, properties, and applications

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Bibliographische Detailangaben
Hauptverfasser:	Cai, Weiping (VerfasserIn), Duan, Guotao (VerfasserIn), Li, Yue 1973- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2014
Schriftenreihe:	Advances in materials science and engineering
Schlagworte:	Nanostrukturiertes Material
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXI, 411 S. Ill., graph. Darst.
ISBN:	9781439876824

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Datensatz im Suchindex

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adam_text	Contents Series Statement.......................................................................................................xv Preface ....................................................................................................................xvii Acknowledgments ...................................................................................................xix Authors ....................................................................................................................xxi Chapter 1 General Introduction ............................................................................1 1.1 Hierarchical Micro/Nanostructured Powders ...........................1 1.2 Hierarchical Micro/Nanostructured Arrays ..............................2 References ............................................................................................4 SECTION I Hierarchical Micro/Nanostructured Powders Chapter 2 Solvothermal Routes ............................................................................9 2.1 Introduction ...............................................................................9 2.2 Novei Micro/Nanostructured ZnO ............................................9 2.2.1 Micro/Nanostructured Porous ZnO Plates ...................9 2.2.1.1 Morphology and Structure ..........................10 2.2.1.2 Influence ofVE(/Vmvv on Products ...............11 2.2.1.3 Formation of Nanoplates ............................12 2.2.2 Standing Porous Nanoplate-Built Hollow Spheres .... 14 2.2.2.1 Morphology and Structure ..........................15 2.2.2.2 Morphological Evolution ............................16 2.2.2.3 Influence of Trisodium Citrate Dihydrate on Morphology ..........................18 2.2.2.4 For m ation of Porou s Nanoplate-Built Honeycomb-Like ZnO Hollow Spheres ...........................................18 2.2.3 Nanoplate-Built Core/Shell-Structured ZnO Objects 21 2.2.3. 1 Morphology and Structure ..........................22 2.2.3.2 Morphology Evolution with Reaction Time ...........................................................23 2.2.3.3 Influence Factors... ......................................26 2.2.3.4 Two-Step Sequential Growth Model ..........27 2.3 Micro/Nanostructured Porous Fe3O4 Nanofìbers ....................30 2.3.1 Morphology and Structure .........................................30 vi Contents 2.3.2 Influencing Factors .....................................................32 2.3.2.1 pH Value .....................................................32 2.3.2.2 Reaction Temperature .................................32 2.3.2.3 Content of PR in the Precursor Solution .....33 2.3.2.4 Effect of QHsO-}- .......................................35 2.3.3 Formation of Porous Oriented Magnetite Fibers .......35 2.3.3.1 Formation of Ultrafine Fe3O4 Nanoparticles ..............................................35 2.3.3.2 PR-Directed/Magnetic Dipole-Induced Orientation Assembling ..............................35 2.3.3.3 Existence and Removal of PR in the Fibers ....................................................36 2.3.4 Effects of Reaction Parameters ..................................38 2.4 Tremella-Like Micro/Nanostructured Fe3S4/C Composites .... 39 2.4.1 Structure and Morphology .........................................40 2.4.2 Influence of Glucose ...................................................42 2.4.3 Formation of Tremella-Like Fe^/C Composites ......44 2.5 Brief Summary ........................................................................46 References ..........................................................................................46 Chapters Template-Etching Strategies ..............................................................53 3.1 Introduction .............................................................................53 3.2 Micro/Nanostructured Porous Silicate Hollow Spheres ..........53 3.2.1 Copper Silicate Micro/Nanostructured Hollow Spheres .......................................................................54 3.2.1.1 Structure and Morphology ..........................55 3.2.1.2 Formation Mechanism ................................55 3.2.2 Magnesium Silicate Micro/Nanostructured Hollow Spheres ...........................................................58 3.2.2.1 Structure and Morphology ..........................58 3.2.2.2 Formation of Magnesium Silicate Hollow Spheres ...........................................59 3.2.3 Nickel Silicate and Silica-Nickel Composite Hollow Spheres ...........................................................61 3.2.3.1 Nickel Silicate Hollow Spheres ..................62 3.2.3.2 Silica Hollow Spheres .................................63 3.2.3.3 Silica-Nickel Composite Hollow Spheres ..65 3.3 Hierarchical SiO2@y-AlOOH Microspheres ...........................67 3.3.1 Morphology and Structure .........................................67 3.3.2 Formation of Hierarchical SlO2@y-A1OOH Microspheres ..............................................................69 3.3.2. 1 Mor phoiog ical Evolution with Reaction .....69 3.3.2.2 Template-Induced Deposition Mechanism ..................................................70 3.3.2.3 Effect of Urea ..............................................71 Contents vii 3.4 Structure and Component Controllable Hollow Nanospheres: The Case of ZnO and Noble Metal Cluster-Embedded ZnO ..........................................................71 3.4.1 Selective Etching Strategy for Hollow Nanospheres.. 72 3.4.2 Etching by Tartaric Acid ............................................73 3.4.3 Etching by Weak Acids with Noble Metal Ions .........78 3.4.4 Formation of ZnO Hollow Nanospheres ....................80 3.4.5 Noble Metal Doping in ZnO Nanoshells ....................82 3.4.6 Some Remarks on the Strategy ..................................82 3.5 Brief Summary ........................................................................83 References ..........................................................................................83 Chapter 4 Electro spin η ing and In Situ Conversion .............................................89 4.1 Introduction .............................................................................89 4.2 Polyacrylonitrile/Ferrous Chloride Composite Porous Nanofibers ................................................................................90 4.2.1 Morphology and Structure .........................................91 4.2.2 Existence of FeCl2 within Fibers ................................93 4.2.3 Extension of the Electrospinning Strategy: In Situ Conversion ......................................................94 4.2.3.1 Polyacrylonitrile/FeOOH Composite Nanofibers ...................................................94 4.2.3.2 Polyacrylonitrile/MgtOH)-, Composite Nanofibers ...................................................95 4.3 Hierarchically Micro/Nanostructured ΡΑΝ@γ-Α1ΟΟΗ Fibers .. 97 4.3.1 Electrospun Nanofiber-Templated Hydrothermal Route ..........................................................................98 4.3.2 Morphology and Structure .........................................99 4.3.3 Influence Factors ......................................................100 4.3.3.1 Annealing Treatment ................................100 4.3.3.2 Effect of Reaction Duration ......................101 4.3.3.3 Effect of Hexamethylenetetramine Addition ....................................................102 4.3.3.4 Effect of Reaction Temperature ................102 4.3.4 Formation of Micro/Nanostructured ΡΑΝ@γ-Α1ΟΟΗ Fibers ............................................103 4.4 Electrospun Nanofiber-Based Ag Porous Nanotube Films ... 104 4.4.1 Ag-Coated Naiiofiber Template-Plasma Etching Strategy .....................................................................105 4.4.2 Morphology and Structure of Ag Porous Nanotube Films ........................................................106 4.4.3 Structural Tunability of Ag Porous Nanotube Films ... 107 4.4.4 Formation of Nanopores on Tube Walls ...................109 4.5 Brief Summary ......................................................................109 References ........................................................................................ HO viii Contents Chapter 5 Structurally Enhanced Photocatalysis Properties ............................115 5.1 Introduction ...........................................................................115 5.2 ZnO-BasedMicro/Nanoarchitectures ...................................115 5.2.1 Nanoplate-Built Core-Shell-Structured ZnO Objects ......................................................................116 5.2.1.1 Structural Dependence of Photocatalytic Activity .............................116 5.2.1.2 Durability of Photoc atalytic Activity .......118 5.2.1.3 Structure-Induced Enhancement of Photocatalytic Activity and Durability .....118 5.2.2 Noble Metal Cluster-Embedded ZnO Composite Hollow Spheres .........................................................119 5.2.2.1 Photocatalytic Activity .............................120 5.2.2.2 Photostability ............................................120 5.2.2.3 Pt/ZnO Porous Shells ...............................121 5.2.3 Ag Nanoparticle-Decorated Nanoporous ZnO Microrods .................................................................123 5.2.3.1 Photocatalytic Activity .............................125 5.2.3.2 Photostability ............................................126 5.2.3.3 Interface-Induced Enhancement of Photocatalytic Activity .............................127 5.3 Micro/Nanostructured oc-FeX)^ Porous Spheres ...................129 5.3.1 Photocatalytic Activity .............................................129 5.3.2 Photostability ............................................................131 5.3.3 Structurally Induced Photocatalytic Enhancement.. 131 5.4 Micro/Nanostructured Bi05Na05TiO3 ....................................132 5.4.1 Morphology and Structure .......................................132 5.4.2 Photocatalytic Activity .............................................133 5.5 Brief Summary ......................................................................135 References ........................................................................................135 Chapter 6 Structurally Enhanced Adsorption Performances for Environment.... 141 6.1 Introduction ...........................................................................141 6.2 Micro/Nanostructured ZnO as Adsorbents ...........................142 6.2.1 Adsorption of СиЦІ) on Porous ZnO Nanoplates .... 142 6.2.1.1 Adsorption Measurements of Cu(II) ........142 6.2.1.2 Structurally Enhanced Adsorption ...........143 6.2.1.3 Extension to Anion Adsorption ................146 6.2.2 Standing Porous Nanoplate-Built ZnO Hollow Microspheres ............................................................147 6.2.2.1 Adsorptive Performance of Heavy Metal Ions .................................................147 6.2.2.2 Structurally Enhanced Adsorption and Its Electronegativity Dependence .............150 6.2.3 Brief Remarks ..........................................................153 Contents ix 6.3 Composite Porous Nanofibers for Removal of CrCVI) ..........154 6.3.1 Cr-Removal Performance .........................................154 6.3.1.1 High Cr-Removal Capacity .......................155 6.3.1.2 Influences of the pH Value and Fedi) Content ......................................................156 6.3.2 PAN-Fefll) Complexes-Induced Cr Adsorption .... 158 6.3.2.1 Hydrolyzation and Cr Adsorption .............158 6.3.2.2 Initial pH Value and Fe Content Dependence ...............................................159 6.3.3 Micro/Nanostructured ΡΑΝ@γ-Α1ΟΟΗ Fibers .......160 6.3.3.1 Adsorption Isotherms of Cr(VI) Ions ....... 161 6.3.3.2 Regeneration and Reusability of the ΡΑΝ@γ-Α1ΟΟΗ Fibers ............................161 6.3.3.3 Structurally Enhanced and Protonation- Dependent Adsorption ..............................162 6.4 Magnetic Micro/Nanostructured Materials as Adsorbents... 163 6.4Л Tremella-Like Fe3S4/C Magnetic Adsorbent ............163 6.4.1.1 Adsorption Kinetics ..................................164 6.4.1.2 Adsorption Isotherms ...............................165 6.4.1.3 Regenerative Adsorption Performance .....166 6.4.1.4 Enhanced Surface Carbon-Induced Adsorption and Desorption .......................168 6.4.2 Micro/Nanostructured Porous Fe3O4 Nanofibers as an Effective and Broad-Spectral Adsorbent ........169 6.4.2.1 Highly Effective Removal of PCBs ..........170 6.4.2.2 Strong Adsorption of Heavy Metal Cations and Anions ...................................171 6.4.2.3 Recycling Performance .............................172 6.5 Micro/Nanostructured Porous Metal Silicate Hollow Spheres as Efficient Adsorbents ............................................173 6.5.1 Magnesium Silicate Micro/Nanostructured Hollow Spheres .........................................................173 6.5.2 Copper Silicate Micro/Nanostructured Hollow Spheres .....................................................................176 6.5.3 Nickel Silicate Micro/Nanostructured Hollow Spheres .....................................................................177 6.6 Brief Summary ......................................................................178 References ........................................................................................178 SECTiON // Hierarchical Micro/Nanostructured Arrays Chapter 7 Micro/Nanostructured Block-Built Arrays ......................................187 7.1 Introduction ...........................................................................187 x Contents 7.2 Zero-Dimensional Object-Built Arrays .................................188 7.2.1 Nanoparticle Array and Laser Morphological Manipulation ............................................................188 7.2.1.1 Morphology and Evolution .......................188 7.2.1.2 Laser-Induced Spheroidization .................191 7.2.2 Nanoparticles on Microsized PS Sphere Arrays ......192 7.2.3 Two-Step Replication to Prepare Zero-Dimensional Nanostructured Materials ..........198 7.3 One-Dimensional Nanoobject-Built Arrays ..........................201 7.3.1 Self-Assembling ID Nanostructures ........................201 7.3.2 ID Nanostructure by Pulsed Laser Deposition ........202 7.3.3 ID Nanostructure by Magnetron Sputtering ............212 7.4 Brief Summary ......................................................................217 References ........................................................................................217 Chapter 8 Micro/Nanostructured Ordered Porous Arrays ................................223 8.1 Introduction ...........................................................................223 8.2 Micro/Nanostructured Ordered Pore Arrays Based on Solution-Dipping Strategy .....................................................224 8.2.1 Monolayer Ordered Pore Arrays ..............................225 8.2.1.1 In Situ Solution Dipping ...........................225 8.2.1.2 Morphology and Structure ........................226 8.2.1.3 A Solvent Evaporation—Colloidal Sphere Deformation Model ......................227 8.2.1.4 Extensions of Solution-Dipping Strategy.... 229 8.2.2 Multilayer Ordered Pore Arrays ...............................236 8.2.2.1 Direct Synthesis of Homopore Sized Porous Films on Any Surface ...................236 8.2.2.2 Multilayer Heteropore Sized Porous Films ... 239 8.3 Micro/Nanostructured Ordered Pore Arrays Based on Electrodeposition Strategy ....................................................243 8.3.1 Metal Micro/Nanostructured Ordered Through- Pore Arrays ...............................................................243 8.3.1.1 Electrodeposition Strategy Based on PS Monolayer ............................................243 8.3.1.2 Ordered Through-Pore Arrays ..................244 8.3 Л .3 Molecule Adsorption and Interface- Weakening Model .....................................247 8.3.1.4 Universality of the Strategy ......................249 8.3.2 Semiconductor Micro/Nanostructured Ordered Pore Arrays ...............................................................249 8.3.2.1 Morphology and Structure ........................250 8.3.2.2 Oriented Substrate-Induced Oriented Growth ......................................................251 8.3.2.3 Other Materials .........................................252 Contents xï 8.3.3 Hollow Sphere Array Films Based on Electrodeposition ......................................................254 8.3.3.1 Ni Hollow Sphere Arrays ..........................254 8.3.3.2 Hierarchically Micro/Nano structured Monolayer Hollow Sphere Arrays ............256 8.3.3.3 Standing Ag Nanoplate—Built Hollow Microsphere Arrays ..................................261 8.4 Micro/Nanostructured Ordered Pore Arrays Based on Other Routes ..........................................................................269 8.4.1 Micro/Nanostructured Porous Array Based on Electrophoretic Deposition .......................................269 8.4.1.1 Strategy .....................................................269 8.4. 1 .2 Fabrication of Colloidal Solutions by Laser Ablation in Liquids .........................269 8.4.1.3 Morphology and Structure ........................271 8.4.1.4 Influence of Current and Substrate ...........272 8.4.1.5 Formation of Hollow Spheres ...................272 8.4.1.6 Universality of Strategy ............................273 8.4.2 Noble Metal 3D Micro/Nanostructured Films В ase d on El ectr ophoretic D epositi on .......................276 8.4.2.1 Au/ZnO Micro/Nanorod Arrays by Electrophoresis in the Au Colloidal Solution .....................................................277 8.4.2.2 Au Nanochain-Built 3D Netlike Porous Films by Electrophoretic Deposition .................................................281 8.4.3 Micro/Nanostructured Hollow Sphere Arrays Based on Gas-Phase Surface Sol-Gel Process .........285 8.5 Brief Summary ......................................................................286 References ........................................................................................286 Chapter 9 Surface Wettability and Self-Cleaning Properties ...........................293 9.1 Introduction ...........................................................................293 9.2 Tunable Wettability of Periodic ZnO Pore Array Films ...........................................................................294 9.3 Controllable Superhydrophobicity of Ιη-,Ο, Ordered Pore Array Films ...........................................................................297 9.4 Irradiation-Induced Reversible Wettability of ZnO Pore Array Films ...........................................................................300 9.5 Superhydrophobicity of Silver Hierarchical Bowl-Like Arrays ....................................................................................301 9.6 Wettability of Silica Ordered Micro/Nanostructured Arrays .....................................-.............·................................303 9.6. 1 Micro/Nanostructured Ordered Pore Array .............303 9.6.2 Ordered Nanopillar Arrays ......................................306 xii Contents 9.7 Wettability of Hierarchical Micro/Nanocomposite Arrays .....307 9.7.1 Zero-Dimensional Nanostructures on Microsized Polystyrene Spheres ..................................................307 9.7.2 One-Dimensional Nanostructures on Microsized Polystyrene Spheres ..................................................309 9.8 Superhydrophobic Surfaces on Curved Substrates ................314 9.9 Superamphiphilicity of TiO2 Hierarchical Micro/ Nanorod Arrays without Ultraviolet Irradiation ....................316 9.10 Brief Summary and Remarks ................................................319 References.... ....................................................................................320 Chapter 10 Optical Properties and Devices ........................................................323 10.1 Introduction ...........................................................................323 10.2 Controlled Optical Property of Gold Nanoparticle Arrays .....323 10.3 Terahertz Absorption Bands in Au/Polystyrene Sphere Arrays ....................................................................................324 10.4 Tunable Surface Plasmon Resonance of Au Opening-Nanoshell Ordered Arrays ......................................329 10.4.1 Arrays Structure and Tunable SPR .........................330 10.4.2 Dependence of SERS Effect on SPR ........................332 10.5 Photoluminescence Properties of Semiconductor Periodic Arrays ......................................................................334 10.5.1 PL of Oriented ZnO Ordered Pore Arrays ...............334 Ш.5.2 PL of In2O3 Ordered Pore Arrays .............................335 10.6 Quasi-Photonic Crystal Properties of Monolayer Hollow Microsphere Array ................................................................336 10.6.1 Tunable Optical Transmission Stop Band ................336 10.6.2 Equivalent Double-Layer Photonic Crystal Approximation .........................................................338 10.6.3 Optical Gas-Sensing Devices ...................................339 10.7 Transmission Mode Wavemeter Devices Based on the Ordered Pore Arrays ..............................................................340 10.7.1 Basic Equations ........................................................341 10.7.2 Optical Diffraction of the Ordered Pore Arrays ......342 10.7.3 Resolution and Precision of Wavelength Measurement ............................................................344 10.8 Brief Summary ......................................................................346 References ........................................................................................346 Chapter 11 Gas-Sensing Devices and Structurally Enhanced Gas-Sensing Performances ....................................................................................349 1 1.1 Introduction ...........................................................................349 11.2 Gas Sensors Based on Homopore-Sized Porous Films .........350 1 L2.Î Construction of Sensing Device ...............................350 1 1.2.2 Structure-Dependent Gas-Sensing Performance .....351 Contents xiii 11.3 Gas-Sensing Devices Based on Heteropore-Sized Porous Films ......................................................................................353 11.3.1 Gas-Sensing Devices ................................................353 11.3.2 Gas-Sensing Performance with Both High Sensitivity and Fast Response ..................................354 11.3.3 Pore Size-Dependent Gas-Sensing Performance and Diagram of /R versus 5.......................................355 11.3.4 Structurally induced Controllability of Gas-Sensing Performances ......................................357 11.3.5 Extension of the Strategy .........................................358 11.3.6 Doping-Induced Selectivity of Porous Films ...........361 11.4 High-Performance Gas-Sensing Devices Based on the Porous Films/Mems Chip ......................................................362 11.4.1 Construction Strategy of the High-Performance Sensing Devices .......................................................363 11.4.2 Integrated Gas Sensors .............................................365 11.4.3 Morphology and Microstructure ..............................365 11.4.4 Power Consumption and Heating Homogeneity ......367 M .4.5 High Gas-Sensing Performances .............................368 11.4.5. 1 Response Time and Sensitivity .................368 11.4.5.2 Lower Limit of Detection .........................370 11.4.5.3 Dependence of Sensitivity on Working Temperature ..............................................371 11.4.5.4 Durability and Stability of the MEMS-Based Sensing Devices ................371 11.5 Brief Summary and Remarks ................................................373 References ........................................................................................374 Chapter 12 Surface-Enhanced Raman Scattering Performances and Detection Applications ...................................,.................................377 12.1 Introduction ...........................................................................377 12.2 Au Hierarchically Micro/Nanostructured Particle Arrays ......377 12.3 Ag Nanopartiele-Built Hollow Microsphere (Nanoshell) Arrays ....................................................................................379 1 2.3.1 Tunability of the LSPR and SERS Properties ..........380 12.3.2 Structural Parameter-Dependent Coupling Effects ..... 382 12.4 Standing Ag Nanoplate-Built Hollow Microsphere Arrays... .................................................................................384 1 2.4 Л SERS Activity of Ag Xanoplate-Built Hoiiovv Microsphere Arrays ..................................................385 12.4.2 E*timation of Enhancement Factor ...............,..........385 12.4.3 Structurally Enhanced Effect ...................................387 {2.4.4 Practicability of the Array ........................................388 ! 2.4.4.1 Reproducibility of Measurements .............388 12.4.4.2 Reusabiîitv as an SERS Substrate ............388 xiv Contents 12.4.5 Application in Trace Detection of Cyanide ..............390 12.4.5.1 Surface Cleaning of Substrate ..................391 12.4.5.2 Effect of Excited Power ............................391 12.4.5.3 Measurement Consistency of Parallel Substrates ..................................................392 12.4.5.4 Effect of Immersion Time ........................392 12.4.5.5 Trace Detection of Kalium Cyanide .........394 12.5 Brief Summary ......................................................................397 References ........................................................................................397 Index ......................................................................................................................401 Materials Science Hierarchical Micro/Nanostriictured Materials: Fabrication, Properties, and Applications presents the latest fabrication, properties, and applications of hierarchical micro/nanostructured materials in two sections—powders and arrays. After a general introduction to hierarchical micro/nanostructured materials, the first section begins with a detailed discussion of the methods of mass pro¬ duction for hierarchical micro/nanostructured powders, including structure- directed solvothermal routes, template-etching strategies, and electrospinning technologies. It then proceeds to address structurally enhanced adsorption and photocatalytic performances. The second section describes strategies for the fabrication of hierarchical micro/nanostructured object arrays and their devices, such as modified col¬ loidal lithographies-based solution and etectrodeposition. It also examines the structure-dependent properties and performances of the micro/nano¬ structured arrays, including surface wettability, optical properties, surface- enhanced Raman scattering (SERS) effects, and gas-sensing performances. In its euttms-edse co erase. HierarchicalMkro/NanostructuredMaterials: Fabrication, Properties, and Applications explores the use of hierarchical micro nanostruetured materials in environmental remediation and detection devices, commenting on future trends and applications in catalysis, integrated nanophotonics. optical devices, super-high density storage media, sensors, nanobiotechnolosv. SERS substrates, and more.
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author	Cai, Weiping Duan, Guotao Li, Yue 1973-
author_GND	(DE-588)1060240246
author_facet	Cai, Weiping Duan, Guotao Li, Yue 1973-
author_role	aut aut aut
author_sort	Cai, Weiping
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building	Verbundindex
bvnumber	BV042058579
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discipline	Chemie / Pharmazie Physik
format	Book
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id	DE-604.BV042058579
illustrated	Illustrated
indexdate	2024-07-10T01:11:38Z
institution	BVB
isbn	9781439876824
language	English
lccn	2014000462
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physical	XXI, 411 S. Ill., graph. Darst.
publishDate	2014
publishDateSearch	2014
publishDateSort	2014
publisher	CRC Press
record_format	marc
series2	Advances in materials science and engineering
spelling	Cai, Weiping Verfasser aut Hierarchical micro-nanostructured materials fabrication, properties, and applications Weiping Cai ; Guotao Duan ; Yue Li Boca Raton [u.a.] CRC Press 2014 XXI, 411 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advances in materials science and engineering Includes bibliographical references and index Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 s DE-604 Duan, Guotao Verfasser aut Li, Yue 1973- Verfasser (DE-588)1060240246 aut Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027499501&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027499501&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Cai, Weiping Duan, Guotao Li, Yue 1973- Hierarchical micro-nanostructured materials fabrication, properties, and applications Nanostrukturiertes Material (DE-588)4342626-8 gnd
subject_GND	(DE-588)4342626-8
title	Hierarchical micro-nanostructured materials fabrication, properties, and applications
title_auth	Hierarchical micro-nanostructured materials fabrication, properties, and applications
title_exact_search	Hierarchical micro-nanostructured materials fabrication, properties, and applications
title_full	Hierarchical micro-nanostructured materials fabrication, properties, and applications Weiping Cai ; Guotao Duan ; Yue Li
title_fullStr	Hierarchical micro-nanostructured materials fabrication, properties, and applications Weiping Cai ; Guotao Duan ; Yue Li
title_full_unstemmed	Hierarchical micro-nanostructured materials fabrication, properties, and applications Weiping Cai ; Guotao Duan ; Yue Li
title_short	Hierarchical micro-nanostructured materials
title_sort	hierarchical micro nanostructured materials fabrication properties and applications
title_sub	fabrication, properties, and applications
topic	Nanostrukturiertes Material (DE-588)4342626-8 gnd
topic_facet	Nanostrukturiertes Material
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027499501&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027499501&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
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