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{ "item_title" : "Application of Polarization Modulation Infrared Reflection Absorption Spectroscopy in Electrochemistry", "item_author" : [" Izabella Brand "], "item_description" : "Introduction 1. In situ infrared reflection-absorption spectroscopy at the electrodeelectrolyte interface 1.1. Introduction to IRRAS 1.2. Reflection of the IR light from mirror surfaces 1.3. Introduction to the stratified systems 1.4. PM IRRAS: background of the technique, measured spectrum, deconvolution, background subtraction 1.5. Qualitative and quantitative analysis 1.6. Requirements of in situ experiments: Experimental conditions which have to be taken into consideration 2. PM IRRAS for studies of redox-inactive molecular films adsorbed on electrode surfaces 2.1. Redox-inactive films on electrodes: importance of these studies: biomimetic applications (predominantly) 2.2. In situ PM IRRAS of models of cell membranes 2.3. Cell membranes: supported lipid bilayers (LB-LS, vesicles), tethered lipid bilayers, floating lipid bilayers, role of composition, lateral and transverse symmetry 2.4. Interaction of cell membranes with proteins: channel forming proteins, anchor protein, interacting with a polar head group protein 2.5. In situ PM IRRAS of protein films2.6. In situ PM IRRAS of DNA-films 2.7. Other redox-inactive films: n-octadecanol, pyridine 3. PM IRRAS for studies of redox-active molecular films adsorbed on electrode surfaces 3.1. Redox-active films on electrodes: applications (catalysis, redox-active thin organized films, redox-active thick films) 3.2. Use of in situ PM IRRAS for studies of electrocatalytic processes 3.3. In situ PM IRRAS studies of thin organized films of redox-active molecules: metalloorganic compounds3.4. In situ PM IRRAS studies of thick, redox-active molecular films: polymer films 3.5. Redox-active films on electrodes: applications (catalysis, redox-active thin organized films, redox-active thick films) 3.6. Use of in situ PM IRRAS for studies of electrocatalytic processes3.7. In situ PM IRRAS studies of thin organized films of redox-active molecules: metalloorganic compounds3.8. In situ PM IRRAS studies of thick, redox-active molecular films: polymer films", "item_img_path" : "https://covers1.booksamillion.com/covers/bam/3/03/042/163/3030421635_b.jpg", "price_data" : { "retail_price" : "109.99", "online_price" : "109.99", "our_price" : "109.99", "club_price" : "109.99", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : "" } }
Application of Polarization Modulation Infrared Reflection Absorption Spectroscopy in Electrochemistry|Izabella Brand

Application of Polarization Modulation Infrared Reflection Absorption Spectroscopy in Electrochemistry

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Overview

Introduction
1. In situ infrared reflection-absorption spectroscopy at the electrodeelectrolyte interface 1.1. Introduction to IRRAS 1.2. Reflection of the IR light from mirror surfaces 1.3. Introduction to the stratified systems 1.4. PM IRRAS: background of the technique, measured spectrum, deconvolution, background subtraction 1.5. Qualitative and quantitative analysis 1.6. Requirements of in situ experiments: Experimental conditions which have to be taken into consideration
2. PM IRRAS for studies of redox-inactive molecular films adsorbed on electrode surfaces 2.1. Redox-inactive films on electrodes: importance of these studies: biomimetic applications (predominantly) 2.2. In situ PM IRRAS of models of cell membranes 2.3. Cell membranes: supported lipid bilayers (LB-LS, vesicles), tethered lipid bilayers, floating lipid bilayers, role of composition, lateral and transverse symmetry 2.4. Interaction of cell membranes with proteins: channel forming proteins, anchor protein, interacting with a polar head group protein 2.5. In situ PM IRRAS of protein films2.6. In situ PM IRRAS of DNA-films 2.7. Other redox-inactive films: n-octadecanol, pyridine
3. PM IRRAS for studies of redox-active molecular films adsorbed on electrode surfaces 3.1. Redox-active films on electrodes: applications (catalysis, redox-active thin organized films, redox-active thick films) 3.2. Use of in situ PM IRRAS for studies of electrocatalytic processes 3.3. In situ PM IRRAS studies of thin organized films of redox-active molecules: metalloorganic compounds3.4. In situ PM IRRAS studies of thick, redox-active molecular films: polymer films 3.5. Redox-active films on electrodes: applications (catalysis, redox-active thin organized films, redox-active thick films) 3.6. Use of in situ PM IRRAS for studies of electrocatalytic processes3.7. In situ PM IRRAS studies of thin organized films of redox-active molecules: metalloorganic compounds3.8. In situ PM IRRAS studies of thick, redox-active molecular films: polymer films

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Details

  • ISBN-13: 9783030421632
  • ISBN-10: 3030421635
  • Publisher: Springer
  • Publish Date: June 2020
  • Dimensions: 9.21 x 6.14 x 0.38 inches
  • Shipping Weight: 0.82 pounds
  • Page Count: 122

Related Categories

    1. Books
    2. Science
    3. Chemistry - Physical & Theoretical
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    2. Science
    3. Spectroscopy & Spectrum Analysis
    1. Books
    2. Science
    3. Physics - Condensed Matter

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