Kooperativer Bibliotheksverbund

UID:

Format: 191 S. : , zahlr. Ill.

Edition: 1. Aufl.

ISBN: 3-89468-039-3

Series Statement: Stätten der Geschichte Berlins 72

Language: German

Subjects: Art History

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

UID:

Format: 1 online resource (xxxi, 406 pages)

ISBN: 9783527645428 , 352764542X , 3527645403 , 9783527645404 , 9783527645411 , 3527645411 , 9783527645435 , 3527645438 , 9781299533677 , 1299533671

Series Statement: Materials for sustainable energy and development

Content: From the fundamentals to recent developments, this book introduces scientists and engineers to photocatalysis and demonstrates its potential for improving water quality. It also points out strategies to increase the photocatalytic efficacy: synthesis of better photocatalysts, combination of photocatalysis with other technologies, and the correct design of photocatalytic reactors. Applications and a chapter on design approaches for photocatalytic reactors round off the book.A must-have read for materials scientists, water chemists, environmental scientists and chemical engineers, whether es.

Note: Fundamentals: active species, mechanisms, reaction pathways. Identification and roles of the active species generated on various photocatalysts / Yoshio Nosaka, Atsuko Y Nosaka ; Photocatalytic reaction pathways -- effects of molecular structure, catalyst, and wavelength / William S Jenks ; Photocatalytic mechanisms and reaction pathways drawn from kinetic and probe molecules / Claudio Minero, Valter Maurino, Davide Vione -- Improving the photocatalytic efficacy. Design and development of active titania and related photocatalysts / Bunsho Ohtani ; Modified photocatalysts / Nurit Shaham-Waldmann, Yaron Paz ; Immobilization of a semiconductor photocatalyst on solid supports: methods, materials, and applications / Didier Robert, Valérie Keller, Nicolas Keller ; Wastewater treatment using highly functional immobilized TiO thin-film photocatalysts / Masaya Matsuoka, Takashi Toyao, Yu Horiuchi, Masato Takeuchi, Masakazu Anpo ; Sensitization of titania semiconductor: a promising strategy to utilize visible light / Zhaohui Wang, Chuncheng Chen, Wanhong Ma, Jincai Zhao ; Photoelectrocatalysis for water purification / Rossano Amadelli, Luca Samiolo -- Effects of photocatalysis on natural organic matter and bacteria. Photocatalysis of natural organic matter in water: characterization and treatment integration / Sanly Liu, May Lim, Rose Amal ; Waterborne inactivation by TiO photoassisted processes: a brief overview / Julián Andrés Rengifo-Herrera, Angela Giovana Rincón, Cesar Pulgarin -- Modeling. Reactors. Pilot plants. Photocatalytic treatment of water: irradiance influences / David Ollis ; A methodology for modeling slurry photocatalytic reactors for degradation of an organic pollutant in water / Orlando M Alfano, Alberto E Cassano, Rodolfo J Brandi, María L Satuf ; Design and optimization of photocatalytic water purification reactors / Tsuyoshi Ochiai, Akira Fujishima -- Solar photocatalytic pilot plants: commercially available reactors / Sixto Malato, Pilar Fernández-Ibáñez, Maneil Ignacio Maldonado, Isabel Oller, Maria Inmaculada Polo-López -- Index.

Additional Edition: Print version: Photocatalysis and water purification. Weinheim : Wiley-VCH, ©2013 ISBN 9783527331871

Language: English

Subjects: Chemistry/Pharmacy , Physics , General works

Keywords: Electronic books. ; Aufsatzsammlung ; Electronic books. ; Electronic books.

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527645404

URL: Volltext

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527645404

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527645404

UID:

Format: XI, 497 p. 189 illus., 142 illus. in color. , online resource.

Edition: 1st ed. 2024.

ISBN: 9783031553295

Series Statement: Environmental Chemistry for a Sustainable World, 74

Content: Nanomaterials have recently garnered significant attention and practical importance for heterogeneous electrocatalysis. This book presents recent developments in the design, synthesis, and characterisation of nanostructured electrocatalytic materials, with a focus on applications to energy and wastewater treatment. Electrocatalytic nanomaterials can enhance process efficiency and sustainability, thus providing innovative solutions for a wide array of areas such as sustainable energy production, conversion, and wastewater treatment. Readers will gain insights into the latest breakthroughs in electrocatalysis and the activity of nanomaterials in energy conversion applications, e.g., fuel cells, hydrogen production, water splitting, and electro/photocatalytic water splitting, as well as for wastewater treatment. The book explores the development of advanced electrocatalysts, particularly hybrid materials.

Note: 1. Fundamentals and roles of nanoelectrocatalysis for sustainable energy and water -- 2. Advanced Nanomaterials for Hydrogen Production -- 3. Emerging nanoelectrocatalysts for the oxidation of ethanol in alkaline fuel cells -- 4. Carbon Nanostructures as Support Material in Fuel Cells -- 5. Challenges and Approaches of Nanoelectrocatalysts for Fuel Cell -- 6. Development of advanced Pd-based electrocatalysts for high performing fuel cell system -- 7. Progress in metal-organic framework composites for electrocatalytic hydrogen evolution reaction -- 8. Advanced Nanomaterials for Hydrogen Production -- 9. Bio-inspired metal-metal oxides as Pd support catalysts for CO2 electro-reduction into electrofuels -- 10. Nanostructured copolymer and dendrimer-based sensor for the detection of organic pollutants in wastewater samples -- 11. Recent developments in titania-carbon nanotube nanohybrids towards enhanced photocatalytic efficiency -- 12. Nanostructured silver-iron-functionalized titanium dioxide photo electrocatalyst for industrial effluent remediation -- 13. Nanoelectrocatalysts-enhanced methods for removal of volatile organic compounds in wastewater.

In: Springer Nature eBook

Additional Edition: Printed edition: ISBN 9783031553288

Additional Edition: Printed edition: ISBN 9783031553301

Additional Edition: Printed edition: ISBN 9783031553318

Language: English

DOI: 10.1007/978-3-031-55329-5

URL: https://doi.org/10.1007/978-3-031-55329-5

URL: Volltext  (URL des Erstveröffentlichers)

URL: lizenzpflichtig

UID:

Format: 1 Online-Ressource (176 S.) , Ill., graph. Darst.

ISBN: 1849730776 , 9781849730778

Series Statement: RSC Nanoscience & nanotechnology 11

Note: A unique compilation of data from a wide range of chemical and spectroscopic instrumentation and their integration into nanostructure characterisation, This exciting new book is a unique compilation of data from a wide range of chemical and spectroscopic instrumentation and the integration of nanostructure characterisation drawn from physical, chemical, electrochemical, spectroscopic and electron microscopic measurements. It fills a gap in the current nanomaterials literature by documenting the latest research from scientific journals and patent literature to provide a concise yet balanced and integrated treatment of an interesting topic: titanium oxide nanostructures within the emerging fashionable area of nanomaterials. Of particular interest are the following key chapters: * Modification and Coating Techniques - provides a unique summary and discussion of available techniques to coat surfaces with nanostructured materials * Chemical Properties - relates structure to surface chemistry and hence applications * Structural and Physical Properties - reviews the relationship between nanostructure and physical properties providing a basis for the rationalisation of applications The book, a valuable reference point, is aimed at professionals, postgraduates and industrial research workers in nanomaterials. Readers will gain a knowledge of the methods for synthesising nanomaterials as well as an understanding of their structure and resulting physical characteristics and a knowledge of their (existing and potential) applications

Language: English

Keywords: Titanate

URL: Volltext

UID:

Format: 174 S. , Ill.

Edition: 1. Aufl.

ISBN: 3746680751

Note: Politik aus Liebe -- Teil 1. Die Berlinerin: "Tu was!": das preußische Kind -- "Ich übte unermüdlich Geige": die musische Jugend -- "Ich bin bin das dritte Girl von rechts": das wilde Berlin -- Teil 2. Der Weltstar -- Out of Berlin: Reise in ein neues Leben -- Versuchungen: Marlene und die Angebote der Nazis -- Kassandrarufe: die Familie bleibt in Berlin -- Die Soldatentochter: "Der wichtigste Abschnitt meines Lebens" -- Heimkehr in ein fremdes Land: Berlin 1945 -- Rendezvous sentimental: Wiedersehen mit alten Freunden -- Ein Marschall wird gerügt: Marlene trifft Georgi K. Schukow -- Imagepflege für Deutschland: "Ich werde immer Deutsche sein" -- Betteln mit Charme: Gelder für das Hansaviertel -- "Berlin bleibt frei!": den Politikern ins Gewissen reden -- Triumph der "Verräterin": Comeback im Titania-Palast -- Tapetenwechsel für den Weltstar: Marlene erobert den Osten -- Vereint mit Berlin: "Hier steh ich an den Marken meiner Tage" -- Epilog: "Marlene - Berlin, im Januar 2001"

Language: German

Keywords: Dietrich, Marlene 1901-1992 ; Dietrich, Marlene 1901-1992 ; Berlin ; Politisches Engagement ; Biografie

URL: Inhaltsverzeichnis

Author information: Runge, Manuela 1959-

UID:

Format: 1 online resource (1205 p.)

ISBN: 1-281-05524-7 , 9786611055240 , 0-08-054466-5

Series Statement: Studies in surface science and catalysis ; v. 91

Content: The organizers of this Sixth Symposium maintained their initial objectives, namely to gather experts from both industries and universities to discuss the scientific problems involved in the preparation of heterogeneous catalysts, and to encourage as much as possible the presentation of research work on catalysts of real industrial significance. Another highlight of these symposia is to reserve a substantial part of the program to new developments in catalyst preparation, new preparation methods and new catalytic systems. The fact that chemical reactions which were hardly conceivable some years

Note: Description based upon print version of record. , Front Cover; Preparation of Catalysts VI: Scientific Bases for the Preparation of Heterogeneous Catalysts; Copyright Page; Contents; Organizing Committee; Opening Address; Acknowledgements; Chapter 1. Vanadium phosphorus mixed oxide from the precursor to the active phase: catalyst for the oxidation of n-butane to maleic anhydride; Chapter 2. Use of 31P NMR by spin echo mapping to prepare precursors of vanadium phosphate catalysts for n-butane oxidation to maleic anhydride; Chapter 3. The role of aging on the formation of porous silica , Chapter 4. In situ techniques for the investigation of phase transformations in copper catalyst co-precipitatesChapter 5. Influence of preparation method on the properties of V-Sb-O catalysts for the ammoxidation of propane; Chapter 6. Novel procedure for the preparation of highly active platinum-titania and palladium-titania aerogel catalysts with favourable textural properties; Chapter 7. Preparation of combustion catalysts by washcoating alumina whiskers-covered metal monoliths using a sol-gel method; Chapter 8. Preparation of supported catalysts by equilibrium deposition-filtration , Chapter 9. Preparation of K-C-Fe/Al2O3 catalysts for ammonia synthesis at mild conditions Chapter 10. A novel [PtMo6]/MgO catalyst for alkane-to-alkene conversion; Chapter 11. Spectroscopic characterization of supported Cr and Cr, Ti catalysts: Interaction with probe molecules; Chapter 12. A new supported dehydrogenation catalyst: influence of the support and preparation variables; Chapter 13. Alumina/water interf acial phenomena during impregnation; Chapter 14. Nanometals and colloids as catalyst precursors , Chapter 15. Preparation of nanometer size of Cu-Zn/Al2O3 catalyst by phase transfer. Part 3. Sol preparation and phase transfer conditionsChapter 16. Flame synthesis of nanostructured vanadium oxide based catalysts; Chapter 17. The preparation of stable Ru metal clusters in zeolite Y used as catalyst for ammonia synthesis; Chapter 18. Preparation of nanometer gold strongly interacted with TiO2 and the structure sensitivity in low-temperature oxidation of CO; Chapter 19. Proton affinity distributions: a scientific basis for the design and construction of supported metal catalysts , Chapter 20. ? Aluminas-supported Pd-Mo mixed systems: effect of Mo deposition procedure on dispersion and catalytic activity of PdChapter 21. Metal catalysts supported on a novel carbon support; Chapter 22. Soft chemistry route for the preparation of highly dispersed transition metals on zirconia; Chapter 23. Influence of titania loading on tungsten adsorption capacity, dispersion, acidic and zero point of charge properties of W/TiO2-Al2O3 catalysts; Chapter 24. Preparation of titania supported on silica catalyst: study of the dispersion and the texture of titania , Chapter 25. Preparation of catalytic polymer/ceramic ion exchange packings for reactive distillation columns , English

Additional Edition: ISBN 0-444-82078-7

Language: English

UID:

Format: 1 online resource (215 p.)

Edition: 1st ed.

ISBN: 1-282-28672-2 , 9786612286728 , 0-08-091984-7

Series Statement: Interface science and technology ; v. 17

Content: This title in the authoritative Interface Science and Technology Series presents the key features and applications of modified oxide and phosphate surfaces.* Examines both basic and applied aspects * Incorporates examples from recent publications

Note: Description based upon print version of record. , Front Cover; Chemistry on Modified Oxide and Phosphate Surfaces: Fundamentals and Applications; Copyright Page; Table of Contents; Preface; Chapter 1. Oxides and Phosphates; References; Chapter 2. Surfaces and Modified Surfaces; Reference; Chapter 3. Chemistry on Organofunctionalized Amorphous Oxides Surfaces; 1. Introduction; 2. Modified amorphous oxide surfaces as metal cation sequestrating agents; 3. Organofunctionalized metal-modified surfaces for chromatographic applications; 4. Modified amorphous oxides for luminescent devices; 4.1. A 3-trimethoxypropylthioethylamine-modified surface , 4.2. In situ synthesis of luminescent complexes on amorphous modified silica surfaces5. Modified amorphous oxide surfaces as electrochemical sensors; 5.1. Metal cation electrochemical sensors; 5.2. Paracetamol sensors; 5.3. Chemically modified oxide surfaces capable of molecular recognition; 6. The influence of magnesium trisilicate and silicon dioxide on the thermal degradation of ascorbic acid; References; Chapter 4. Chemistry on Organofunctionalized Nanostructured Oxides' Surfaces; 1. Introduction; 2. Inorganic-organic hybrids; 3. Sol-gel lamellar silica; 3.1. Eu(II)-doped lamellar silica , 4. Titania foam and thiol-functionalized nanoporous titania-silica4.1. Thiol-functionalized nanoporous titania-silica; 4.2. Titania foam; 5. The effects of nanostructure on adsorption features: metal chemisorption on hexagonal templated zirconia obtained thorough sol-gel process; 6. Surface modifications promoted by not bonded species; 6.1. Effects of metal salts, DMF, and DMSO on the anatase-rutile transition in sol-gel-synthesized TiO2; 7. Hexagonal mesoporous silica; References; Chapter 5. Chemistry on Conducting Polymer-Modified Oxide Surfaces; 1. Introduction; 2. Synthetic approach , 3. Effects of adsorbed conducting polymer on the oxide properties4. Effects of the oxide on the adsorbed polymer properties; References; Chapter 6. Chemistry on Modified Layered Oxides; 1. Introduction; 2. Titanates and niobates; 3. Tungstates and molybdates; 4. Molybdenum oxide as a molecular sieve; 4.1. MoO3 intercalation compounds with nic and hmta; 4.2. Adsorption of caffeine, dimethylglyoxime, and rodamin-B on lamellar molybdenum oxide; 5. Sol-gel modified molybdenum oxide; 6. Graphite oxide; References; Chapter 7. Chemistry on Modified Phosphates; 1. Introduction , 2. Titanium and zirconium phosphates3. Vanadyl phosphate; 3.1. Synthesis and characterization of a VOPO4-NH3 hybrid; 3.2. More vanadyl phosphate compounds; 4. Barium and calcium phosphate; 5. Adsorption of glycine on ""animal"" (bone) phosphate; 5.1 Introduction; 5.2 Experimental; 5.3 Results and discussion; 6. A final example; References; Chapter 8. Chemistry on Modified Clay Surfaces; 1. Introduction; 2. Vermiculite surface modified with carnauba wax for oil cleaning; 3. Water as a surface modifier: the hydrophobicity of vermiculite , 4. The effect of surface chemical composition on the acid corrosion of pedra sabão (soapstone) , English

Additional Edition: ISBN 0-12-372554-2

Language: English

UID:

Format: 1 online resource (466 pages)

ISBN: 9783527698042 , 3527698043 , 9783527698066 , 352769806X , 9783527698059 , 3527698051

Note: Cover -- Title Page -- Copyright -- Contents -- Preface -- Foreword -- Chapter 1 Introduction to Ceramic Materials -- 1.1 Introduction: Ceramics for Biotechnological and Environmental Applications -- 1.2 What are Ceramic Materials? -- 1.2.1 Advanced and Traditional Ceramics -- 1.2.2 Properties of Advanced Ceramics -- 1.3 Oxide Ceramics -- 1.3.1 Alumina -- 1.3.1.1 Alumina Structure and Properties -- 1.3.1.2 Applications of Alumina: Some Examples -- 1.3.2 Titania -- 1.3.2.1 Titania Structure and Properties -- 1.3.2.2 Applications of Titania: Some Examples -- 1.3.3 Zirconia -- 1.3.3.1 Zirconia Structure and Properties -- 1.3.3.2 Applications of Zirconia: Some Examples -- 1.3.4 Silica -- 1.3.4.1 Properties of Silica -- 1.3.4.2 Application of Silica: Some Examples -- 1.3.5 Iron oxide -- 1.3.6 Barium Titanate -- 1.4 Nonoxide Ceramics -- 1.4.1 Nitrides -- 1.4.2 Carbides -- 1.5 Carbon-based Materials -- 1.6 Conclusions -- References -- Chapter 2 Processing Methods for Advanced Ceramics -- 2.1 Introduction -- 2.2 Powder Synthesis and Preparation -- 2.3 Shaping Methods -- 2.3.1 Pressing -- 2.3.2 Plastic Forming -- 2.3.2.1 Extrusion -- 2.3.2.2 Injection Molding -- 2.3.3 Colloidal Shaping -- 2.3.3.1 Slip Casting -- 2.3.3.2 Gel-casting -- 2.3.3.3 Freeze-casting -- 2.3.3.4 Sol-gel Process -- 2.3.3.5 Tape Casting -- 2.4 Additive Manufacturing -- 2.5 Conclusions -- References -- Chapter 3 Surface Modification of Ceramic Materials -- 3.1 Introduction -- 3.2 Chemical Activation Strategies for Inert Ceramic Surfaces -- 3.2.1 Wet Chemical Hydroxylation: Acidic vs. Basic Hydroxylation -- 3.2.2 Hydrothermal Activation -- 3.2.3 Oxygen Plasma Treatment -- 3.3 Derivatization Strategies by Wet Chemistry Functionalization -- 3.3.1 Wet Chemical Silanization -- 3.3.2 Wet Chemical Nonsilane Functionalization. , 3.4 Ceramic Surface Decoration for Biotechnological and Environmental Applications -- 3.4.1 Biotechnological Applications -- 3.4.2 Environmental Applications -- 3.5 Summary and Outlook -- References -- Chapter 4 Methods for Surface Imaging and Combined Structural and Chemical Surface Analysis: Atomic Force Microscopy -- 4.1 Introduction -- 4.2 The Basic AFM Modes of Operation -- 4.2.1 Imaging modes -- 4.3 Dry AFM vs. Liquid-cell AFM -- 4.4 Technical Details About the AFM Imaging Process -- 4.4.1 Properties of Piezo Transducers and the Scanning Process -- 4.4.2 Properties of the Feedback Loops and Resulting Signals -- 4.4.3 Mechanical Stability and Tip Size Effects -- 4.4.4 Image Processing, Analysis and Interpretation -- 4.4.5 Secondary Contrasting Techniques -- 4.4.6 Suitability of Samples and Sample Preparation -- 4.5 Application of AFM for Biotechnological and Environmental Purposes -- 4.5.1 Testing the Surface Charges and Surface Chemistry of Functionalised Ceramics Surfaces -- 4.5.2 AFM for Environmental Applications -- 4.5.3 AFM Biofilm Formation - Microbiology -- 4.6 Conclusions -- References -- Chapter 5 Surface Chemical Analysis of Ceramics and Ceramic-Enhanced Analytics -- 5.1 Introduction -- 5.2 Methods for Surface Chemical Analysis of Ceramics: An Overview -- 5.2.1 Electron Spectroscopy (PES, Auger) -- 5.2.2 X-ray and UV Photoelectron Spectroscopy (XPS and UPS) -- 5.2.3 Auger Spectroscopy -- 5.2.4 Surface Chemical Analysis with XPS and Auger Spectroscopy -- 5.2.5 Secondary Ion Mass Spectrometry (SIMS) -- 5.2.6 Raman and Infrared Spectroscopy -- 5.3 Using Ceramic Colloids and Nanomaterials for Advanced Surface Chemical Analysis -- 5.3.1 Playing with Light Confinement, Morphology-dependent Resonances and Evanescent Fields: Opportunities for Optical Sensing and Vibrational Spectroscopy -- 5.3.2 Surface Sensing by Whispering Gallery Modes. , 5.3.3 Applications in Raman Microspectroscopy -- 5.3.3.1 Microlenses for Raman Microspectroscopy -- 5.3.3.2 SiO2/TiO2 and Hollow-shell Titania Resonators: Plasmon-free SERS -- 5.3.3.3 Probing Surface Chemical Reactions in Metal/Ceramic Composites -- 5.3.4 Ceramics for Matrix-assisted Laser Desorption Mass Spectrometry -- 5.4 Concluding Remarks and Outlook -- References -- Chapter 6 Methods for Electrokinetic Surface Characteristics -- 6.1 Introduction -- 6.2 The Electric Double-layer -- 6.3 Electrokinetic Phenomena-theory -- 6.3.1 Electrophoresis -- 6.3.2 Streaming Current-streaming Potential -- 6.3.3 Particle Covered Surfaces -- 6.4 Experimental Evidences, Applications -- 6.4.1 Electrophoretic Characteristics of Surfaces -- 6.4.2 Nano and Microparticle Suspensions -- 6.4.3 Protein Covered Particles -- 6.4.4 Streaming Current/Streaming Potential Characteristics of Surfaces -- 6.4.5 Bare Substrates -- 6.4.6 Polyelectrolyte Modified Surfaces -- 6.4.7 Particle Covered Surfaces -- 6.4.8 Protein Covered Surfaces -- 6.5 Concluding Remarks -- Acknowledgments -- References -- Chapter 7 Functionalized Surfaces and Interactions with Biomolecules -- 7.1 Introduction -- 7.2 Fundamentals of Biomolecule Interactions with Functionalized Material Surfaces -- 7.2.1 Forces Between Biomolecules and Functionalized Surfaces -- 7.2.1.1 van der Waals forces -- 7.2.1.2 Electrostatic Interaction Forces -- 7.2.1.3 Hydrogen Bonds -- 7.2.1.4 Hydration and Hydrophobic Interaction Forces -- 7.2.1.5 Steric Interaction Forces -- 7.2.1.6 Specific Interaction Forces -- 7.2.1.7 Nonequilibrium Interaction Forces -- 7.2.1.8 Other Forces -- 7.2.2 Which Biomolecule, Media, and Material Properties Influence Biomolecule-Material Interactions? -- 7.2.2.1 Material Properties Influencing Biomolecule-Material Interactions. , 7.2.2.2 Biomolecule Properties Influencing Biomolecule-Material Interactions -- 7.2.2.3 Media Properties Influencing Biomolecule-Material Interactions -- 7.2.3 Events Occurring After Adsorption -- 7.3 Influence of Surface Functionality, Multifunctionality, and Heterogeneous Surface Chemistry -- 7.3.1 Charged and Zwitterionic Groups -- 7.3.2 Polymeric Surface Functionalization -- 7.3.3 Multifunctionality and Heterogeneity -- 7.3.4 Specific-Binding Surface Chemistries -- 7.4 Conclusions and Outlook -- Acknowledgments -- References -- Chapter 8 Interactions Between Surface Material and Bacteria: From Biofilm Formation to Suppression -- 8.1 Introduction -- 8.2 Biofilm Formation -- 8.3 Theoretical Models of Bacteria-Surface Interactions -- 8.3.1 The Thermodynamic Theory -- 8.3.2 DLVO Model -- 8.3.3 Extended DLVO-Theory -- 8.4 Detrimental Effects of Biofilms: Some Examples -- 8.5 Prevention of Biofilm Formation -- 8.5.1 Stimuli Responsive Coatings -- 8.5.2 Drug Release Antibacterial Materials -- 8.6 Characterization of Antimicrobial Materials and Coatings -- 8.6.1 Standards for Biofilm Growth and Analysis -- 8.7 Conclusions and Outlook -- References -- Chapter 9 Carbon Nanomaterials for Antibacterial Applications -- 9.1 Introduction -- 9.1.1 Important Material Properties that Govern Antibacterial Activity -- 9.1.2 Effect of Nanomaterial Size on Bacterial Viability -- 9.1.3 Effect of Nanomaterial Surface Functionalities on Cellular Viability -- 9.1.4 Proposed Mechanisms for Antibacterial Activity -- 9.2 Inherent Antibacterial Properties of Carbon Nanomaterials -- 9.2.1 Graphene -- 9.2.2 Carbon Nanotubes -- 9.2.3 Fullerenes -- 9.2.4 Nanodiamonds -- 9.2.5 Diamond-Like Carbon, Diamond Thin Films -- 9.3 Functionalization of Carbon Nanomaterials for Tailoring Antibacterial Properties -- 9.3.1 Graphene -- 9.3.2 Carbon Nanotubes -- 9.3.3 Fullerenes. , 9.3.4 Nanodiamonds -- 9.3.5 Diamond-Like Carbon, Diamond Thin Films -- 9.4 Summary and Outlook -- References -- Chapter 10 Mesoporous Silica and Organosilica Biosensors for Water Quality and Environmental Monitoring -- 10.1 Introduction -- 10.2 Mesoporous Silica Materials for Biosensor Development -- 10.3 Functionalization of Mesoporous Silica and Organosilica-Based Biosensors -- 10.3.1 Surface Functionalization -- 10.3.2 Immobilization of Enzymes on Silica-Based Mesoporous Materials for Biosensors -- 10.3.3 Electrochemical Biosensor -- 10.4 Applications of Mesoporous Silica and Organosilica-Based Biosensors -- 10.4.1 Glucose Sensing -- 10.4.2 Hemoglobin and Myoglobin Sensing Using Molecularly Imprinted Polymers -- 10.4.3 Mesoporous Silica-Based Biosensors for Water Quality Monitoring -- 10.4.4 Mesoporous Silica and Organosilica-Based Materials for Toxic Gas Sensing -- 10.4.5 Mesoporous Silica and Organosilica-Based Immunosensors -- 10.5 Conclusions and Outlook -- Acknowledgments -- Abbreviations -- References -- Chapter 11 Ceramic-Based Adsorbents in Bioproduct Recovery and Purification -- 11.1 Introduction -- 11.2 Chromatography and Chromatography Support -- 11.3 Functionalization of Ceramic-Based Adsorbents -- 11.3.1 Chemobiological Functionalization -- 11.3.2 Self-Assembled Systems -- 11.3.3 Composite Structures -- 11.4 Characterization of Ceramic Adsorbent Particles -- 11.4.1 Physicochemical Analysis -- 11.4.2 Surface Energetics -- 11.5 Fundamentals of Bioproduct Adsorption onto Ceramic Beads -- 11.6 Application of Ceramic-Based Adsorbents -- 11.6.1 General Chromatography -- 11.6.2 Facilitated Protein Purification -- 11.6.3 Integrated Downstream Bioprocessing -- 11.7 Conclusions and Outlook -- References -- Index -- EULA.

Additional Edition: ISBN 3527338357

Language: English

DOI: 10.1002/9783527698042

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527698042

URL: Volltext  (URL des Erstveröffentlichers)

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527698042

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527698042

UID:

Format: 1 online resource (177 p.)

Edition: 1st ed.

ISBN: 1-84973-077-6

Series Statement: RSC nanoscience & nanotechnology ; no. 12

Content: This exciting new book is a unique compilation of data from a wide range of chemical and spectroscopic instrumentation and the integration of nanostructure characterisation drawn from physical, chemical, electrochemical, spectroscopic and electron microscopic measurements. It fills a gap in the current nanomaterials literature by documenting the latest research from scientific journals and patent literature to provide a concise yet balanced and integrated treatment of an interesting topic: titanium oxide nanostructures within the emerging fashionable area of nanomaterials. Of particular intere

Note: Description based upon print version of record. , Titanate and Titania Nanotubes_OFC_Publicity; i_iv; v_vi; vii_viii; ix_xii; xiii_xiv; xv_xvi; xvii_xviii; xix_xxii; 001_019; 020_049; 050_084; 085_108; 109_149; 150_154 , English

Additional Edition: ISBN 1-84755-910-7

Language: English

UID:

Format: 1 online resource (785 p.)

Edition: 2nd ed.

ISBN: 1-68015-133-9 , 9786612769641 , 1-282-76964-2 , 0-08-094730-1 , 1-282-01129-4 , 9786612011290 , 1-61583-000-6 , 0-8155-1842-0 , 1-59124-274-6

Content: Nanostructured materials are one of the highest profile classes of materials in science and engineering today, and will continue to be well into the future. Potential applications are widely varied, including washing machine sensors, drug delivery devices to combat avian flu, and more efficient solar panels. Broad and multidisciplinary, the field includes multilayer films, atomic clusters, nanocrystalline materials, and nanocomposites having remarkable variations in fundamental electrical, optic, and magnetic properties.Nanostructured Materials: Processing, Properties and Applications,

Note: Description based upon print version of record. , Front Cover; Nanostructured Materials: Processing, Properties, and Applications; Copyright Page; Contents; References; Contributors; Preface; PART I: PROCESSING; Chapter 1. Chemical Synthesis of Nanostructured Particles and Films; 1.1 Introduction; 1.2 Particles; 1.3 Films and Coatings; 1.4 Summary; Acknowledgements; References; Chapter 2. Synthesis of Nanostructured Materials by Inert-Gas Condensation Methods; 2.1 Introduction; 2.2 Classification; 2.3 Synthesis of Nanostructured Materials; 2.4 Early Studies on Inert-Gas Condensation; 2.5 The Principle of Inert-Gas Condensation , 2.6 Evaporation Techniques2.7 Particle Transport; 2.8 Particle Collection; 2.9 Nucleation and Growth; 2.10 Limitations of the Classical Nucleation Theory; 2.11 Crystal Structure and Morphology; 2.12 Influence of Process Variables on Particle Size; 2.13 Advantages of IGC; 2.14 Drawbacks of IGC; 2.15 Recent Developments in IGC; 2.16 Conclusions; Acknowledgements; References; Chapter 3. Thermal Sprayed Nanostructured Coatings: Applications and Developments; 3.1 Introduction; 3.2 Thermal Spray Technology , 3.3 Thermal-Sprayed Nanostructured Alumina-Titania Coating and United States Navy Applications3.4 Development and Application of Nanostructured Titania-Based Coating for Industrial Application; 3.5 Conclusions; Acknowledgements; References; Chapter 4. Nanostructured Materials and Composites Prepared by Solid State Processing; 4.1 Introduction and Background; 4.2 Phenomenology of Nanostructure Formation; 4.3 High-Energy Ball Milling and Mechanical Attrition; 4.4 Phase Stability at Elevated Temperatures; 4.5 Severe Plastic Deformation (SPD); 4.6 Summary and Outlook; Acknowledgements; References , Chapter 5. Nanocrystalline Powder Consolidation Methods5.1 Introduction; 5.2 Thermodynamics, Mechanisms and Kinetics of Nanocrystalline Powder Densification; 5.3 Methods for Full Densification of Nanopowders; 5.4 Summary; Acknowledgements; References; Chapter 6. Electrodeposited Nanocrystalline Metals, Alloys, and Composites; 6.1 Introduction; 6.2 Synthesis of Nanostructured Materials by Electrodeposition; 6.3 Structure of Nanocrystalline Metal Electrodeposits; 6.4 Properties; 6.5 Applications; 6.6 Summary; References; Chapter 7. Computer Modeling of Nanostructured Materials; 7.1 Introduction , 7.2 Modeling Methods7.3 Nanostructured Materials; 7.4 Prospects for Future Modeling; References; PART II: PROPERTIES; Chapter 8. Diffusion in Nanocrystalline Materials; 8.1 Introduction; 8.2 Modeling of Interface Diffusion; 8.3 Diffusion in Grain Boundaries of Metals; 8.4 Diffusion in Nanocrystalline Metals; 8.5 Diffusion in Nanocrystalline Ceramics; Acknowledgements; References; Chapter 9. Nanostructured Materials for Gas Reactive Applications; 9.1 Introduction; 9.2 Catalysis and Electrocatalysis; 9.3 Gas Sensors; 9.4 Hydrogen Storage; 9.5 Conclusion; Acknowledgements; References , Chapter 10. Magnetic Nanoparticles and Their Applications , English

Additional Edition: ISBN 0-8155-1534-0

Additional Edition: ISBN 0-8155-1451-4

Language: English