Arama Sonuçları - "polymers degradation."

Microwave-assisted Polymer Synthesis

İçindekiler: “…Microwave-Assisted Synthesis: General Concepts -- Microwave-Assisted Step-Growth Polymerizations (From Polycondensation to C-C Coupling) -- Microwave-Assisted Free Radical Polymerizations -- Microwave-Assisted Controlled Radical Polymerization -- Microwave-Assisted Synthesis of Polyesters and Polyamides by Ring-Opening Polymerization -- Microwave-Assisted Cationic Ring-Opening Polymerization of 2-Oxazolines -- Microwave-Assisted Polymer Modifications -- Microwave-Assisted Synthesis of Hybrid Polymer Materials and Composites -- Upscaling Microwave-Assisted Polymerizations -- Polymer Degradation under Microwave Irradiation.…”
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Handbook of Gas Sensor Materials : Properties, Advantages and Shortcomings for Applications Volume 2: New Trends and Technologies. Yazar: Korotcenkov, Ghenadii

İçindekiler: “…8.2.1 Zeolite-Based Gas Sensors -- References -- Chapter 9: Cavitands -- 9.1 Cavitands: Characterization -- 9.2 Cavitands as a Material for Gas Sensors -- References -- Chapter 10: Metallo-Complexes -- 10.1 Gas Sensor Applications of Metallo-Complexes -- 10.2 Approaches to Improvement of Gas Sensor Parameters and Limitations -- References -- Chapter 11: Metal-Organic Frameworks -- 11.1 General Consideration -- 11.2 MOFs Synthesis -- 11.3 Gas Sensor Applications -- References -- Part III: Nanocomposites -- Chapter 12: Nanocomposites in Gas Sensors: Promising Approach to Gas Sensor Optimization -- References -- Chapter 13: Polymer-Based Composites -- 13.1 Conductometric Gas Sensors Based on Polymer Composites -- 13.2 Problems Related to Application of Polymer-Based Composites in Gas Sensors -- References -- Chapter 14: Metal Oxide-Based Nanocomposites for Conductometric Gas Sensors -- 14.1 Metal-Metal Oxide Composites -- 14.2 Metal Oxide-Metal Oxide Composites -- References -- Chapter 15: Composites for Optical Sensors -- 15.1 Dye-Based Composites -- 15.1.1 Sol-Gel Composites -- 15.1.2 Polymer-Based Composites -- 15.2 Metal Oxide-Based Nanocomposites -- References -- Chapter 16: Nanocomposites in Electrochemical Sensors -- 16.1 Solid Electrolyte-Based Electrochemical Sensors -- 16.2 Electrochemical Sensors with Liquid Electrolyte -- 16.2.1 Polymer-Modified Electrodes -- 16.2.2 Carbon-Ceramic Electrodes -- References -- Chapter 17: Disadvantages of Nanocomposites for Application in Gas Sensors -- References -- Part IV: Stability of Gas Sensing Materials and Related Processes -- Chapter 18: The Role of Temporal and Thermal Stability in Sensing Material Selection -- References -- Chapter 19: Factors Controlling Stability of Polymers Acceptable for Gas Sensor Application -- 19.1 Polymer Degradation -- 19.1.1 Thermal Degradation.…”
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