Surfactant Based Electrochemical Sensors and Biosensors.

Surfactant Based Electrochemical Sensors and Biosensors discusses the applications of surfactants for Electrochemical Sensors. Surfactant based electrochemical sensors exhibits elevated sensitivity, selectivity, stability and accuracy as compared to other analytical techniques. The fabricated sensor...

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Bibliographic Details
Corporate Author:	ScienceDirect (Online service)
Other Authors:	Manjunatha, Jamballi G., Mustansar Hussain, Chaudhery
Format:	eBook
Language:	English
Published:	San Diego : Elsevier, 2024.
Subjects:	Electrochemical sensors. Biosensors. Surface active agents. Détecteurs électrochimiques. Biocapteurs. Surfactants. surface active agent. Biosensing Techniques Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Intro
Surfactant Based Electrochemical Sensors and Biosensors
Copyright
Contents
Contributors
Part 1: Fundamentals of surfactants and its role in development of electrochemical sensors and biosensors
Chapter 1: Brief overview of surfactants, properties, classification, passivation, and role in chemistry
1. Introduction
1.1. Brief history of surfactants
2. Classification of surfactants
2.1. Cationic surfactants
2.2. Anionic surfactants
2.3. Amphoteric surfactants
2.4. Nonionic surfactants
3. Properties of surfactants
3.1. Micellization
3.2. Solubilization
3.3. Hydrophilic-lipophilic balance (HLB)
3.4. Kraft temperature
3.5. Cloud point
3.6. Zeta potential
4. Passivation
5. Role of surfactants in chemistry
5.1. Role of surfactant in enhanced oil recovery process
5.2. Role of surfactant in electrochemistry
References
Chapter 2: Green approaches in synthesis of surfactants
1. Introduction
1.1. Green surfactants definition
1.2. Advantages and disadvantages of green surfactants
1.3. Green surfactants sources
2. Plant-based biosurfactants
3. Synthesis of biosurfactants by the microorganism
3.1. Fabrication of surfactants from fungi
3.2. Fabrication of surfactants from Bactria
3.3. Fabrication of surfactants from algae
3.4. Biosurfactant for antiparasitic applications
3.4.1. Biosurfactants for management of vector-borne diseases
3.4.2. Ionic surfactants have antileishmanial and cytotoxic properties
3.4.3. Biosurfactants for the management of fungal parasites
3.4.4. SPH6 is a biosurfactant that has antiparasitic and lipopeptide
3.4.5. Application of surfactants of insects
4. Raw green sustainable substrate for biosurfactant production
4.1. Surfactants production from waste substrates
4.1.1. Biosurfactants from vegetable oils waste
4.1.2. Biosurfactant from dairy waste
4.1.3. Biosurfactant from molasses
4.1.4. Biosurfactant from lignocellulosic waste
4.1.5. Biosurfactant from starch-rich waste
4.1.6. Biosurfactant from animal fat
4.2. Surfactants derived from amino acids
4.2.1. Linear surfactants with one amino acid
4.2.2. Linear (single-chain) surfactants with more than one amino acid head
4.2.3. Double chain surfactants
4.2.4. Glycolipid surfactants
References
Chapter 3: Theoretical aspects of surfactant-based electrochemical sensing and biosensing
1. Introduction
2. Types of surfactants
3. Electrochemical sensor consists of the following components
4. Electrochemical sensor applications
4.1. Environmental monitoring of air quality
4.2. Detection of explosive gases and toxic vapors
4.3. Oxygen monitoring in the medical sector
4.4. Food quality control
5. Specific application of surfactants in electrochemistry
5.1. Electroplating
6. Electrochemical biosensors