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ISBN: 0-12-801444-X

Note: Description based upon print version of record. , Front Cover -- Molecularly Imprinted Catalysts -- Copyright -- Contents -- Contributors -- Editors' Biographies -- Foreword -- Preface -- 1 - Molecularly Imprinted Polymers for Enzyme-like Catalysis: Principle, Design, and Applications -- 1. Introduction -- 2. Generic Profile of Molecular Imprinting -- 3. Rationally Optimized Interactions within Imprinted Polymers -- 4. Some Basic Issues in Imprinted Polymer Catalysts for Selective Catalysis -- 5. Molecular Imprinting with Transition State Analogues as the Template -- 6. Molecular Imprinting with Substrate as the Template -- 7. Molecular Imprinting with Product as the Template -- 8. Future Outlook of Molecular Imprinting in Catalysis -- 9. Concluding Remarks -- Acknowledgments -- References -- 2 - Catalytically Active MIP Architectures -- 1. Introduction -- 2. Transition State Analogues as Templates in Abzyme Mimics -- 3. Metal Complexes and Prosthetic Groups in Enzyme Mimics -- 4. MIP-Enzyme Architectures -- 5. Protein-Based MIPs -- 6. Summary and Outlook -- References -- 3 - Molecularly Imprinted Catalysts: Synthesis and Applications -- 1. Introduction -- 2. Design of MIPs for Catalytic Action -- 3. Different Designs of MIPs for the Biomimetic Catalyst -- 3.1 MIPs as Mimics of Hydrolytic Enzyme -- 3.1.1 Ester Hydrolysis -- 3.1.2 Stereoselective Hydrolysis -- 3.1.3 Charged Hydrogen Bonding and Ester Hydrolysis -- 3.1.4 Carbonate and Carbamate Hydrolysis -- 3.1.5 Cellulose Hydrolysis -- 3.2 MIP with Cholesterol Esterase Activity -- 3.3 MIP Catalyst-Enhanced Elimination Reaction -- 3.4 Diels-Alder Catalysis -- 3.5 Metalloenzyme-Based MIP Catalysts -- 3.6 MIP Catalyst for Isomerization Reactions -- 4. Recent Progress Made in MIPs to Enhance Their Biomimetic Catalyst Property -- 4.1 Intrinsic Factors for Enhancement of Biomimetic Catalyst Property -- 4.1.1 High Enzyme Substrate Binding Affinities. , 4.1.2 High Synergy between Recognition and Catalysis -- 4.1.3 High Catalytic Turnover -- 4.1.4 Substantial Rate Accelerations -- 4.2 Extrinsic Factors for Enhancement of Biomimetic Catalyst Property -- 4.2.1 Development of Computational Methodology Affiliated with MIPs as Biomimetic Catalyst -- 5. Conclusion -- References -- 4 - Advances and Challenges in the Design and Synthesis of Molecularly Imprinted Microspheres -- 1. Introduction -- 2. Progress in Design and Synthesis of Molecularly Imprinted Microspheres -- 2.1 Methods of Initiation -- 2.1.1 Controlled Radical Polymerization -- 2.1.2 Iniferters -- 2.1.3 Nitroxide-Mediated Polymerization -- 2.1.4 Reversible Addition Fragmentation Polymerization -- 2.1.5 Atom Transfer Radical Polymerization -- 2.1.6 Porogens -- 2.2 Cross-linkers and Functional Monomers -- 2.3 Other Strategies -- 3. Challenges in the Design and Synthesis of Molecularly Imprinted Microspheres -- 4. Future Outlook: Processable Star MIPs -- 5. Conclusion -- References -- 5 - Molecularly Imprinted Polymers: Principle, Design, and Enzyme-Like Catalysis -- 1. Introduction -- 2. Molecular Imprinting Approach -- 3. Nature of Binding Interactions -- 3.1 Covalent Imprinting -- 3.2 Noncovalent Imprinting -- 3.3 Stoichiometric Noncovalent Imprinting -- 3.4 Metal Coordination Complex Binding -- 4. Polymer Design and Structuring -- 5. Designing of Biomimetic Catalyst by Molecular Imprinting -- 6. Transition State Stabilization and Molecular Imprinting -- 7. Integration of Catalytically Active Groups Using Molecular Imprinting -- 7.1 Using the Covalent Imprinting Approach -- 7.2 Using Noncovalent Imprinting -- 7.3 Using a Stoichiometric Noncovalent Approach -- 7.4 Using a Metal Coordination Approach -- 8. Challenges and Emerging Trends in Molecular Imprinting -- 8.1 Microgels and Nanogels -- 9. Concluding Remarks -- References. , 6 - Biomimetic Imprinted Polymers: Theory, Design Methods, and Catalytic Applications -- 1. Introduction -- 2. Transition State Theory -- 3. Approaches to Designing Biomimetic Catalysts -- 3.1 Design Approach -- 3.2 Transition State Analogue Approach -- 3.3 Catalytic Activity Selection Approach -- 4. Molecularly Imprinted Polymers in Catalysis -- 4.1 Hydrolysis Reactions -- 4.2 Elimination Reactions -- 4.3 C-C Bond Formation Reactions -- 5. Conclusions -- References -- 7 - Biomimics of Metalloenzymes via Imprinting -- 1. Introduction -- 1.1 Role of Imprinted Metalloenzymes in the Field of Catalysis -- 1.2 Categorization of Imprinted Metalloenzymes -- 1.2.1 Template Approaches -- 1.2.2 Metal Ions -- 1.2.3 Polymerization Approaches -- 1.2.4 Imprinting Approaches -- 1.2.5 Catalytic Reactions -- 2. Catalytic Oxidation -- 2.1 Substrate Template -- 2.1.1 Homovanillic Acid Oxidation -- 2.1.2 Nanogels -- 2.1.3 Sensors -- 2.1.4 Phenolic -- 2.1.5 Photocatalyst -- 2.2 Substrate Analogue Template -- 2.2.1 Mesoporous Materials -- 2.2.2 Cyclodextrins -- 2.2.3 Hydroquinone Oxidation -- 2.3 Transition State Analogue Template -- 3. Catalytic Reduction -- 3.1 Substrate Template -- 3.1.1 Nanoreactors -- 3.1.2 Sensors -- 3.2 Substrate Analogue Template -- 3.2.1 Ketones -- 3.2.2 Alkenes -- 3.3 Transition State Analogue Template -- 3.3.1 Ketones -- 3.3.2 Nanoreactor -- 4. Catalytic Hydrolysis -- 4.1 Substrate Template -- 4.2 Substrate Analogue Template -- 4.2.1 Metallic Pivots -- 4.2.2 Borohydrides -- 4.2.3 Paraoxon -- 4.3 Transition State Analogue Template -- 5. Coupling Reactions -- 5.1 Substrate Analogue Template -- 5.2 Transition State Analogue Template -- 6. Conclusions and Prospective -- Acknowledgments -- References -- 8 - The Recognizing Mechanism and Selectivity of the Molecularly Imprinting Membrane -- 1. Introduction -- 2. Basic Classification of MIT. , 3. Influence Factors of Selectivity to Molecularly Imprinted Sensor -- 3.1 Inhibitors of Functional Group -- 3.2 Change in the Spatial Orientation of Functional Groups -- 3.3 Repulsion of Polymerization Backbone -- 3.4 Influence of Steric Hindrance and Electrostatic Repulsion -- 3.5 Effect of the Solvent -- 4. Methods of Improving Recognition Performance for Molecularly Imprinted Technique -- 4.1 Change the Environment of Aggregation and Testing to Improve the Specific Recognition Ability -- 4.1.1 Temperature -- 4.1.2 Solvent -- 4.2 Modification of the Imprinting Unit to Improve Specific Recognition Ability -- 4.2.1 Modification Method of Functional Monomer -- 4.2.1.1 MODIFIED FUNCTIONAL MONOMER -- 4.2.1.2 MULTIPLE FUNCTIONAL MONOMERS -- 4.2.1.3 FUNCTIONAL MONOMER TOGETHER WITH CYCLODEXTRIN AND ITS DERIVATIVES -- 4.2.1.4 CHITOSAN AND ITS DERIVATIVES WITH FUNCTIONAL MONOMER -- 4.2.2 Modification of Cross-linking Agents -- 4.3 Metal Ion-Coordination Effect in Improving the Specificity Recognition Ability of MIP -- 4.4 Dendrimer Method to Improve Specificity Recognition Ability of MIP -- 4.5 Monolayer Self-Assembly Molecularly Imprinted to Improve the Specificity Recognition Ability of MIP -- 4.6 Multilayer Self-Assembly Molecularly Imprinted to Improve the Specificity Recognition Ability of MIP -- 4.7 Combinatorial Imprinting Method to Improve the Specificity Recognition Ability of MIP -- 4.8 Chemometrics Forecast Method to Improve the Specificity Recognition Ability of MIP -- 5. Imprinting Factor -- 6. Prospects -- Acknowledgment -- References -- 9 - Molecularly Imprinted Polymers as Synthetic Catalysts -- 1. Introduction -- 2. Generation of Catalytic Cavities in MIPs -- 3. Molecularly Imprinted Polymer-Based Catalysts for Degradation of Pollutants -- 3.1 Degradation of Pollutants by MIPs Combined with TiO2-Based Photocatalysts. , 3.2 Photodegradation of Pollutants by MIPs Deposited on Other Photoactive Materials -- 3.3 Degradation of Pollutants by MIP Alone -- 4. Dedicated MIP-Catalyzed Reactions -- 4.1 MIP-Catalyzed Diels-Alder Reactions -- 4.2 MIP-Catalyzed β-Elimination Reactions -- 4.3 MIPs as Catalysts for Aldol Condensation Reaction -- 4.4 MIPs as Catalysts for Kemp Elimination -- 4.5 Metal Ion-Based MIPs as Catalysts for Hydrogenation -- 5. Enzyme Mimicking for MIP-Based Sensing -- 6. Conclusions -- Acknowledgment -- References -- 10 - Molecularly Imprinted Photocatalysts -- 1. Introduction -- 2. Molecular Imprinting -- 3. Introduction of Photocatalysis -- 4. Strategies for Improving TiO2 Photocatalytic Selectivity -- 4.1 Adjusting pH Value -- 4.2 Overcoating Photocatalyst with Specific Molecules -- 4.3 Double Region-Structured Photocatalysts -- 4.4 Preparation of TiO2 with {001} Facets -- 5. Selective Degradation of HTOPs by Molecularly Imprinted Photocatalysts -- 5.1 Conductive MIP-Coated TiO2 Photocatalysts -- 5.2 Imprinted Photocatalysts with Inorganic Framework -- 5.3 Directly Imprinted TiO2 Photocatalysts -- 5.4 Double-Domain Film with MIP Region and PCS Region -- 6. Conclusion -- References -- 11 - Molecularly Imprinted Polymers for Biomimetic Catalysts -- 1. Introduction -- 2. Biomimetic Imprinted Catalysts -- 2.1 Carboxypeptidase A-like MIP -- 2.2 Aldolase-like MIP -- 2.3 Peroxidase-like MIP -- 2.3.1 Horseradish Peroxidase-like MIP -- 2.3.2 Glutathione Peroxidase-like MIP -- 2.3.2.1 LIPASE-LIKE MIP -- 2.3.2.2 OTHER TYPES OF ENZYME-LIKE MIPS -- 3. Conclusions and Perspectives -- Acknowledgments -- References -- 12 - Molecularly Imprinted Polymers Applicable for Biomimetic Catalysts in Sensors -- 1. Introduction -- 2. MIP Sensor Using Conductometry -- 3. Amperometric Approach -- 4. Possible Gate Effect Mechanism -- 5. Conclusions -- References. , 13 - Molecularly Imprinted Polymers: Synthetic Receptors for Diagnostic Medical Devices. , English

Additional Edition: ISBN 0-12-801301-X

Language: English

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Format: 1 Online-Ressource

ISBN: 9783319088341

Series Statement: Advanced textbooks in control and signal processing

Additional Edition: Erscheint auch als Druckausgabe ISBN 978-3-319-08833-4

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DOI: 10.1007/978-3-319-08834-1

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Format: XVIII, 501 p. 267 illus. , online resource.

ISBN: 9783319975863

Series Statement: Lecture Notes in Computer Science, 10984

Content: The two volume set LNAI 10984 and LNAI 10985 constitutes the refereed proceedings of the 11th International Conference on Intelligent Robotics and Applications, ICIRA 2018, held in Newcastle, NSW, Australia, in August 2018. The 81 papers presented in the two volumes were carefully reviewed and selected from 129 submissions. The papers in the first volume of the set are organized in topical sections on multi-agent systems and distributed control; human-machine interaction; rehabilitation robotics; sensors and actuators; and industrial robot and robot manufacturing. The papers in the second volume of the set are organized in topical sections on robot grasping and control; mobile robotics and path planning; robotic vision, recognition and reconstruction; and robot intelligence and learning.

Note: Multi-agent Systems and Distributed Control -- Human-Machine Interaction -- Rehabilitation Robotics -- Industrial Robot and Robot Manufacturing -- Sensors and Actuators -- Robot Grasping and Control -- Mobile Robotics and Path Planning -- Robotic Vision, Recognition and Reconstruction -- Robot Intelligence and Learning.

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Additional Edition: Printed edition: ISBN 9783319975856

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DOI: 10.1007/978-3-319-97586-3

URL: http://dx.doi.org/10.1007/978-3-319-97586-3

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Format: 1 Online-Ressource (XVIII, 501 Seiten) , Illustrationen, Diagramme

ISBN: 9783319975863

Series Statement: Lecture notes in computer science 10984

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-319-97585-6

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-319-97587-0

Language: English

Keywords: Mobiler Roboter ; Navigation ; Maschinelles Sehen ; Maschinelles Lernen ; Autonomer Roboter ; Mehrrobotersystem ; Umweltmodell ; Bahnplanung ; Fahrzeug ; Autonomes System ; Navigation ; Unterstützungssystem ; Schildvortrieb ; Streckenvortriebsmaschine ; Robotik ; Reglerentwurf ; Robotik ; Bahnplanung ; Soft Computing ; Konferenzschrift

DOI: 10.1007/978-3-319-97586-3

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Format: XVII, 461 p. 271 illus. , online resource.

ISBN: 9783319975894

Series Statement: Lecture Notes in Computer Science, 10985

Content: The two volume set LNAI 10984 and LNAI 10985 constitutes the refereed proceedings of the 11th International Conference on Intelligent Robotics and Applications, ICIRA 2018, held in Newcastle, NSW, Australia, in August 2018. The 81 papers presented in the two volumes were carefully reviewed and selected from 129 submissions. The papers in the first volume of the set are organized in topical sections on multi-agent systems and distributed control; human-machine interaction; rehabilitation robotics; sensors and actuators; and industrial robot and robot manufacturing. The papers in the second volume of the set are organized in topical sections on robot grasping and control; mobile robotics and path planning; robotic vision, recognition and reconstruction; and robot intelligence and learning.

Note: Multi-agent Systems and Distributed Control -- Human-Machine Interaction -- Rehabilitation Robotics -- Industrial Robot and Robot Manufacturing -- Sensors and Actuators -- Robot Grasping and Control -- Mobile Robotics and Path Planning -- Robotic Vision, Recognition and Reconstruction -- Robot Intelligence and Learning.

In: Springer eBooks

Additional Edition: Printed edition: ISBN 9783319975887

Language: English

DOI: 10.1007/978-3-319-97589-4

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Format: 1 Online-Ressource (XVII, 461 Seiten) , Illustrationen, Diagramme

ISBN: 9783319975894

Series Statement: Lecture notes in computer science 10985

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-319-97588-7

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-319-97590-0

Language: English

Keywords: Mobiler Roboter ; Navigation ; Maschinelles Sehen ; Maschinelles Lernen ; Autonomer Roboter ; Mehrrobotersystem ; Umweltmodell ; Bahnplanung ; Fahrzeug ; Autonomes System ; Navigation ; Unterstützungssystem ; Schildvortrieb ; Streckenvortriebsmaschine ; Robotik ; Reglerentwurf ; Robotik ; Bahnplanung ; Soft Computing ; Konferenzschrift

DOI: 10.1007/978-3-319-97589-4

URL: Volltext  (URL des Erstveröffentlichers)

UID:

Format: XVII, 461 Seiten , Diagramme

ISBN: 9783319975887

Series Statement: Lecture notes in computer science 10985

In: 2

Additional Edition: Erscheint auch als Online-Ausgabe ISBN 978-3-319-97589-4

Language: English

Keywords: Schildvortrieb ; Streckenvortriebsmaschine ; Robotik ; Reglerentwurf ; Autonomer Roboter ; Mehrrobotersystem ; Umweltmodell ; Bahnplanung ; Mobiler Roboter ; Navigation ; Maschinelles Sehen ; Maschinelles Lernen ; Fahrzeug ; Autonomes System ; Navigation ; Unterstützungssystem ; Robotik ; Bahnplanung ; Soft Computing ; Konferenzschrift ; Konferenzschrift

UID:

Format: XVIII, 501 Seiten , Diagramme

ISBN: 9783319975856

Series Statement: Lecture notes in computer science 10984

In: 1

Additional Edition: Erscheint auch als Online-Ausgabe ISBN 978-3-319-97586-3

Language: English

Keywords: Schildvortrieb ; Streckenvortriebsmaschine ; Robotik ; Reglerentwurf ; Autonomer Roboter ; Mehrrobotersystem ; Umweltmodell ; Bahnplanung ; Mobiler Roboter ; Navigation ; Maschinelles Sehen ; Maschinelles Lernen ; Fahrzeug ; Autonomes System ; Navigation ; Unterstützungssystem ; Robotik ; Bahnplanung ; Soft Computing ; Konferenzschrift ; Konferenzschrift

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Original writing title: 第四只眼

Original writing person/organisation: 孙兆霞

Original writing publisher: 北京 : 社会科学文献出版社

ISBN: 9787509761700

Content: 本书以武陵山区（贵州）为研究对象，进行深度的实地调查，总结当地的扶贫开发经验和教训，从理论上深入分析社会建设与扶贫开发的内在关系。并基于对当前我国扶贫开发所处的新阶段、武陵山区面临的新问题以及扶贫开发先行先试对创新的要求，提出“一个新基金、四个新机制”的政策建议。

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Language: Chinese

URL: Volltext

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Format: 1 Online-Ressource

Original writing title: 中国非物质文化遗产保护发展报告（2016）

Original writing person/organisation: 宋俊华

Original writing publisher: 北京 : 社会科学文献出版社

ISBN: 9787509799550

Series Statement: Fei wu zhi wen hua yi chan lan pi shu

Content: 本书总结了2015年我国非遗保护发展的新语境、新特点、新问题，并试图提出非遗保护的新对策，其中各分题报告针对非遗各门类保护现状，提出问题阐发思考；年度热点选取非遗法律保护、非政府组织与非遗国际合作、“社区”在非遗语境中的界定等问题，进行专题探讨；并首次囊括澳门非遗保护，解读澳门非物质文化遗产旅游开发的路径。

Note: 电子文献 , Pinyin-Umschrift und Langzeichen wurden automatisiert erstellt

Language: Chinese

URL: Volltext

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