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Environmentally harmonious chemistry for the 21st century /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Science Publishers,
©2010.
|
| Colección: | Chemical engineering methods and technology.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- ENVIRONMENTALLY HARMONIOUSCHEMISTRY FOR THE 21ST CENTURY; CONTENTS; PREFACE; BIOANALYTICAL SYSTEMS WITH IN VIVOBIOSENSORS AND MICROFLUIDIC DEVICES; ABSTRACT; 1.1. INTRODUCTION; 1.2. PRINCIPLE OF BIOANALYTICAL SENSORS; 1.3. IN VIVO ANALYSIS OF BIOMOLECULES IN BRAIN,7
- 1.3.1. The Use of the Enzyme Reactor as a Recognition Element; 1.3.1.1. On-Line Amperometric Assay of Glucose, L-Glutamate, and Acetylcholine Using Immobilized Enzyme Reactors [14].
- 1.3.1.2. An In Vivo Flow-Injection System for the Highly Selectiveand Sensitive Detection of L-Glutamate Using an Enzyme ReactorInvolving Amplification [15-17]1.3.2. The Use of Biosensors as a Molecular Recognition Sensor; 1.3.2.1. Simultaneous In Vivo Monitoring of Glucose, L-Lactate, and Pyruvate Concentrations in the Rat Brain [18, 19]; 1.3.2.2. Microdialysis Fiber Enzyme Electrodefor In Vivo Monitoring [20, 21]; 1.4. GENERAL ASPECTS OF ANALYTICAL SYSTEMSBASED ON MICROFLUIDIC DEVICES; 1.4.1. Characteristics Provided by a Liquid Microspace; 1.4.2. Multilayer Flow inside Microchannels.
- 1.5. APPLICATIONS OF MICROFLUIDIC DEVICESFOR ANALYTICAL SYSTEMS1.5.1. Multi-Ion Analysis System Based on an IntermittentReagent Pumping and Two Layer Flow InsideMicrochannel [29, 30]; 1.5.2. Biosensing System Based on an In Situ-FabricatedOrganic Membrane Immobilizing Enzyme [39]; 1.6. CONCLUSION; REFERENCES; DEVELOPMENT AND APPLICATION OFFUNCTIONAL INORGANIC MATERIALS; 1. INTRODUCTION; 2. FUNCTIONAL MATERIALS FROM ALUMINA; 3. DEVELOPMENT AND APPLICATION OF GLASS-BASEDSOLID ELECTROLYTES; 3.1. Solid Electrolytes; 3.2. Sulfide-Based Glass-Ceramic Electrolyteswith Lithium Ion Conduction.
- 4. ALL-SOLID-STATE BATTERIES4.1. All-Solid-State Lithium Secondary BatteryUsing Sulfide Solid Electrolytes; 4.2. All-Sulfide Batteries
- A New Conceptin All-Glass-Based Battery Systems; REFERENCES; DEVELOPMENT OF ENVIRONMENTALLYFRIENDLYARTIFICIAL PHOTOSYNTHETICCATALYSTS USING CLEAN AND ABUNDANTSOLAR ENERGY; 1. INTRODUCTION; 2. PRINCIPLES OF PHOTOCATALYSIS; Solar Energy Conversion and Environmental Applications; 3. THE APPLICATION OF PHOTOCATALYSTS FOR SOLARENERGY CONVERSION AND ENVIRONMENTAL PROTECTION; 3.1. Water Splitting Reaction to Produce Pure Hydrogen.
- 3.2. Artificial Photosynthesis: Photocatalytic Reductionof CO2 with H2O3.3. Direct Photocatalytic Decomposition of NO into N2 and O2; 3.4. Applications in the Purification of Water Pollutedwith Various Toxic Compounds Such as Dioxins; 3.5. Superhydrophilicity of TiO2 Thin Filmsand Their Application in Self-Cleaning Materials; 4. DESIGN OF VISIBLE LIGHT-RESPONSIVETIO2 PHOTOCATALYSTS; 4.1. Modification of the Electronic State of TiO2 by Applying anAdvanced Metal Ion-Implantation Method; 4.2. Development of Visible Light-Responsive Ti/ZeoliteCatalysts by an Advanced Metal Ion Implantation Method.