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Nanostructured photocatalyst via def...

Gurylev, Vitaly.

Nanostructured photocatalyst via defect engineeringbasic knowledge and recent advances /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Nanostructured photocatalyst via defect engineeringby Vitaly Gurylev.
Reminder of title:	basic knowledge and recent advances /
Author:	Gurylev, Vitaly.
Published:	Cham :Springer International Publishing :2021.
Description:	xix, 378 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	Photocatalysis.
Online resource:	https://doi.org/10.1007/978-3-030-81911-8
ISBN:	9783030819118$q(electronic bk.)

Nanostructured photocatalyst via defect engineeringbasic knowledge and recent advances /
Gurylev, Vitaly.

Nanostructured photocatalyst via defect engineeringbasic knowledge and recent advances /[electronic resource] :by Vitaly Gurylev. - Cham :Springer International Publishing :2021. - xix, 378 p. :ill., digital ;24 cm.

Photocatalysis: fundamentals -- General principles of defect engineering -- Bulk vs surface defects -- Analysis of defects -- Case study I: Defect engineering of TiO2 -- Case study II: Defect engineering of ZnO -- Case study III: Defect engineering of Ta2O5-, Ta3N5- and TaON-based nanostructures -- Case study V: Defect engineering of MoS2 and WS2 nanostructures -- Defect engineering of other nanostructured semiconductors -- Extrinsic defects in nanostructures semiconductors -- Comparison of extrinsic and intrinsic deficiencies.

This book helps readers comprehend the principles and fundamentals of defect engineering toward realization of an efficient photocatalyst. The volume consists of two parts, each of which addresses a particulate type of defects. The first, larger section provides a comprehensive and rigorous treatment of the behaviour and nature of intrinsic defects. The author describes how their controlled introduction and consequent manipulation over concentration, distribution, nature and diffusion is one of the most effective and practical methodologies to modify the properties and characteristics of target photocatalytic materials. The second part of the book explains the formation of extrinsic defects in the form of metallic and non-metallic dopants and gives a detailed description of their characteristics as this approach is also often used to fabricate an efficient photocatalyst. Filling the gap in knowledge on the correlation between introduction of defects in various semiconducting materials and their photocatalytic performance, the book is ideal for graduate students, academics and researchers interested in photocatalysts, defect engineering, clean energy, hydrogen production, nanoscale advanced functional materials, CO2 deactivation, and semiconductor engineering. Investigates the nature and behaviour of intrinsic and extrinsic defects in the most recognizable and promising semiconductor photocatalytic materials; Demonstrates how the advancement of structural, optical, electronic and electrical properties of photocatalytic materials can be achieved via introduction of defects; Illustrates application of defects engineering in building an efficient nanostructured photocatalyst; Compares intrinsic and extrinsic deficiencies in strict and accurate terms.

ISBN: 9783030819118$q(electronic bk.)

Standard No.: 10.1007/978-3-030-81911-8doiSubjects--Topical Terms:

210444
Photocatalysis.

LC Class. No.: QD716.P45 / G87 2021

Dewey Class. No.: 541.395

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505 0 $a Photocatalysis: fundamentals -- General principles of defect engineering -- Bulk vs surface defects -- Analysis of defects -- Case study I: Defect engineering of TiO2 -- Case study II: Defect engineering of ZnO -- Case study III: Defect engineering of Ta2O5-, Ta3N5- and TaON-based nanostructures -- Case study V: Defect engineering of MoS2 and WS2 nanostructures -- Defect engineering of other nanostructured semiconductors -- Extrinsic defects in nanostructures semiconductors -- Comparison of extrinsic and intrinsic deficiencies.
520 $a This book helps readers comprehend the principles and fundamentals of defect engineering toward realization of an efficient photocatalyst. The volume consists of two parts, each of which addresses a particulate type of defects. The first, larger section provides a comprehensive and rigorous treatment of the behaviour and nature of intrinsic defects. The author describes how their controlled introduction and consequent manipulation over concentration, distribution, nature and diffusion is one of the most effective and practical methodologies to modify the properties and characteristics of target photocatalytic materials. The second part of the book explains the formation of extrinsic defects in the form of metallic and non-metallic dopants and gives a detailed description of their characteristics as this approach is also often used to fabricate an efficient photocatalyst. Filling the gap in knowledge on the correlation between introduction of defects in various semiconducting materials and their photocatalytic performance, the book is ideal for graduate students, academics and researchers interested in photocatalysts, defect engineering, clean energy, hydrogen production, nanoscale advanced functional materials, CO2 deactivation, and semiconductor engineering. Investigates the nature and behaviour of intrinsic and extrinsic defects in the most recognizable and promising semiconductor photocatalytic materials; Demonstrates how the advancement of structural, optical, electronic and electrical properties of photocatalytic materials can be achieved via introduction of defects; Illustrates application of defects engineering in building an efficient nanostructured photocatalyst; Compares intrinsic and extrinsic deficiencies in strict and accurate terms.
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