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008 190618s2019 xx o 000 0 eng d
040 _aOCoLC-P
_beng
_cOCoLC-P
020 _a9781000065404
_q(electronic bk.)
020 _a1000065405
_q(electronic bk.)
020 _a9780429275036
_q(electronic bk.)
020 _a042927503X
_q(electronic bk.)
020 _a9781000070156
_q(electronic bk. : Mobipocket)
020 _a1000070158
_q(electronic bk. : Mobipocket)
020 _a9781000074901
_q(electronic bk. : EPUB)
020 _a1000074900
_q(electronic bk. : EPUB)
020 _z0367224739
020 _z9780367224738
035 _a(OCoLC)1104883242
_z(OCoLC)1104835902
_z(OCoLC)1105063621
035 _a(OCoLC-P)1104883242
050 4 _aTA418.9.N35
072 7 _aTEC
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072 7 _aTEC
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072 7 _aSCI
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072 7 _aSCI
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072 7 _aPHV
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082 0 4 _a620.115
_223
100 1 _aSahu, Ranjeet Kumar.
_912164
245 1 0 _aCORONA DISCHARGE MICROMACHINING FOR THE SYNTHESIS OF NANOPARTICLES
_h[electronic resource] :
_bcharacterization and... applications.
260 _a[S.l.] :
_bCRC PRESS,
_c2019.
300 _a1 online resource
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
_bcr
_2rdacarrier
520 _aThis book summarizes the fundamental and established methods for the synthesis of nanoparticles, providing readers with an organized and comprehensive insight into the field of nanoparticle technology. In addition to exploring the characterization and applications of nanoparticles, it also focuses on the recently explored corona discharge micromachining - Electrical Discharge Micromachining (EDMM) - method to synthesize inorganic nanoparticles. In the synthesis of nanoparticles, organic materials often play an indispensable role, such as providing stabilizers in the form of capping agents. This book will be of interest to advanced undergraduate and graduate students studying physics and engineering, as well as professionals and academics looking for an introduction to the nature and foundations of nanoparticle synthesis. Features: Provides diagnostic tools for the characterization of nanoparticles Explores the cutting-edge EDMM method for the synthesis and characterization of nanoparticles Discusses possible methods to overcome agglomeration of nanoparticles and achieve stable dispersion, in addition to examining the application suitability of synthesized nanoparticles
505 0 _aCover; Half Title; Title Page; Copyright Page; Contents; Preface; Notations; 1: Introduction; 1.1 Fundamentals of Nanoparticles; 1.2 Classification of Nanoparticles; 1.3 Overview of Application of Nanoparticles; 1.4 Research on Nanoparticles; 1.4.1 Review on Nanoparticles Synthesis; 1.4.2 Review on Nanoparticles Stabilization and Application; 1.5 Motivation; 1.6 Methodology; References; 2: Synthesis Methods; 2.1 Introduction; 2.2 Synthesis Methods; 2.2.1 Mechanical Methods; 2.2.1.1 Ball Milling Method; 2.2.1.2 Lithography Method; 2.2.2 Liquid Phase Reaction Methods
505 8 _a2.2.2.1 Solution Precipitation Method2.2.2.2 Chemical Reduction Method; 2.2.2.3 Sol-Gel Method; 2.2.2.4 Electrochemical Method; 2.2.2.5 Micro-Emulsion Method; 2.2.2.6 Polyol Method; 2.2.2.7 Boiling Flask-3-Neck Method; 2.2.2.8 Microfluidic Reactor Method; 2.2.3 Vapor Phase Reaction Methods; 2.2.3.1 Wire Explosion Method; 2.2.3.2 Pulsed Laser Ablation Method; 2.2.3.3 Inert Gas Condensation Method; 2.2.3.4 Sputtering Method; 2.2.3.5 Chemical Vapor Condensation Method; 2.2.3.6 Submerged Arc Synthesis Method; 2.2.3.7 Combustion Flame Method; 2.2.3.8 Plasma Processing Method
505 8 _a2.2.3.9 Aerosol Synthesis Method2.2.3.10 Spray Pyrolysis Method; 2.2.3.11 Solvated Metal Atom Dispersion Method; 2.2.3.12 Corona Discharge Micromachining-Electrical Discharge Micromachining (EDMM) Method; 2.3 Formulation of Colloids; 2.4 Summary; References; 3: Diagnostic Methods; 3.1 Introduction; 3.2 Diagnostic Methods for Structural Characterization; 3.2.1 Scanning Electron Microscopy (SEM); 3.2.2 Transmission Electron Microscopy (TEM); 3.2.3 Energy Dispersive Analysis by X-Rays (EDAX); 3.2.4 Selected Area Electron Diffraction (SAED); 3.2.5 X-Ray Diffraction (XRD)
505 8 _a3.2.6 Scanning Probe Microscopy (SPM)3.2.6.1 Scanning Tunneling Microscopy; 3.2.6.2 Atomic Force Microscopy; 3.3 Diagnostic Methods for Chemical Characterization; 3.3.1 UltraViolet-Visible (UV-Vis) Spectroscopy; 3.3.2 Ionic Spectrometry; 3.4 Diagnostic Methods for Application Characterization; 3.4.1 Ultrasonic Velocity Measurement; 3.4.2 Thermal and Electrical Conductivity Measurements; 3.4.3 Viscosity Measurement; 3.5 Summary; References; 4: A Novel Approach for Nanoparticles Synthesis-EDMM System; 4.1 Introduction; 4.2 Non-Conventional Machining Processes
505 8 _a4.3 Electrical Discharge Machining (EDM)4.3.1 Salient Features of EDM; 4.3.2 EDM Cell; 4.3.3 Mechanism of EDM; 4.4 Electrical Discharge Micromachining (EDMM); 4.4.1 EDMM Approach for Nanoparticles Synthesis; 4.5 Prototype EDMM System; 4.5.1 Ultrasonicator; 4.5.2 Piezoactuator; 4.5.3 Pulse Generation and Control Module; 4.5.4 Tool Feed Control Module; 4.6 Summary; References; 5: Synthesis, Characterization, and Application Suitability; 5.1 Introduction; 5.2 Synthesis of Copper Nanoparticles; 5.2.1 Experimental Parameters; 5.2.2 Experimental Procedure
588 _aOCLC-licensed vendor bibliographic record.
650 0 _aNanoparticles.
_97280
650 0 _aNanostructured materials.
_94537
650 7 _aTECHNOLOGY & ENGINEERING / Engineering (General)
_2bisacsh
_912165
650 7 _aTECHNOLOGY & ENGINEERING / Reference.
_2bisacsh
_912166
650 7 _aSCIENCE / Nanostructures
_2bisacsh
_912167
650 7 _aSCIENCE / Physics
_2bisacsh
_910678
650 7 _aSCIENCE / Applied Sciences
_2bisacsh
_97309
700 1 _aHiremath, Somashekhar S.
_912168
856 4 0 _3Taylor & Francis
_uhttps://www.taylorfrancis.com/books/9780429275036
856 4 2 _3OCLC metadata license agreement
_uhttp://www.oclc.org/content/dam/oclc/forms/terms/vbrl-201703.pdf
942 _cEBK
999 _c70162
_d70162