Pulsed Laser Ablation : Advances and Applications in Nanoparticles and Nanostructuring Thin Films / edited by Ion N. Mihailescu, Anna Paola Caricato.
| Call Number | 621.366 P982 |
| Title | Pulsed Laser Ablation : Advances and Applications in Nanoparticles and Nanostructuring Thin Films / edited by Ion N. Mihailescu, Anna Paola Caricato. |
| Edition | First edition. |
| Physical Description | 1 online resource |
| Contents | chapter 1 Surface Energy and Nucleation Modes -- chapter 2 Nanosecond Laser Ablation and Processing of Solid Targets in Vacuum or in a Low-Gas Atmosphere -- chapter 3 Nanosecond Laser Ablation of Solid Targets in a High-Pressure Atmosphere -- chapter 4 Femtosecond Laser Ablation of Solid Targets in Vacuum and Low-Pressure Gas Atmosphere -- chapter 5 Short-Pulse Laser Near-Field Ablation of Solid Targets under Liquids -- chapter 6 MAPLE Deposition of Nanomaterials -- chapter 7 Thin Films and Nanoparticles by Pulsed Laser Deposition: Wetting, Adherence, and Nanostructuring / chapter 8 Core-Shell Nanoparticles for Energy Storage Applications / chapter 9 Nanoparticle Generation by Double-Pulse Laser Ablation / chapter 10 Ultrafast Laser-Induced Phenomena inside Transparent Materials -- chapter 11 Ultrafast Processes on Semiconductor Surfaces Initiated by Temporally Shaped Femtosecond Laser Pulses -- chapter 12 Atomistic Simulations of the Generation of Nanoparticles in Short-Pulse Laser Ablation of Metals: Effect of Background Gas and Liquid Environments -- chapter 13 Laser Nanostructuring of Polymers -- chapter 14 Laser Materials Processing for Energy Storage Applications. |
| Summary | "Pulsed laser-based techniques for depositing and processing materials are an important area of modern experimental and theoretical scientific research and development, with promising, challenging opportunities in the fields of nanofabrication and nanostructuring. Understanding the interplay between deposition/processing conditions, laser parameters, as well as material properties and dimensionality is demanding for improved fundamental knowledge and novel applications. This book introduces and discusses the basic principles of pulsed laser-matter interaction, with a focus on its peculiarities and perspectives compared to other conventional techniques and state-of-the-art applications. The book starts with an overview of the growth topics, followed by a discussion of laser-matter interaction depending on laser pulse duration, background conditions, materials, and combination of materials and structures. The information outlines the foundation to introduce examples of laser nanostructuring/processing of materials, pointing out the importance of pulsed laser-based technologies in modern (nano)science.With respect to similar texts and monographs, the book offers a comprehensive review including bottom-up and top-down laser-induced processes for nanoparticles and nanomicrostructure generation. Theoretical models are discussed by correlation with advanced experimental protocols in order to account for the fundamentals and underline physical mechanisms of laser-matter interaction. Reputed, internationally recognized experts in the field have contributed to this book.In particular, this book is suitable for a reader (graduate students as well as postgraduates and more generally researchers) new to the subject of pulsed laser ablation in order to gain physical insight into and advanced knowledge of mechanisms and processes involved in any deposition/processing experiment based on pulsed laser-matter interaction. Since knowledge in the field is given step by step comprehensively, this book serves as a valid introduction to the field as well as a foundation for further specific readings."--Provided by publisher. |
| Added Author | Caricato, Anna Paola, editor. Mihailescu, Ion N., editor. |
| Subject | LASER PULSES, ULTRASHORT. MATERIALS SCIENCE. |
| Multimedia |
Total Ratings:
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$a Pulsed Laser Ablation : $b Advances and Applications in Nanoparticles and Nanostructuring Thin Films / $c edited by Ion N. Mihailescu, Anna Paola Caricato.
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$t chapter 1 Surface Energy and Nucleation Modes -- $t chapter 2 Nanosecond Laser Ablation and Processing of Solid Targets in Vacuum or in a Low-Gas Atmosphere -- $t chapter 3 Nanosecond Laser Ablation of Solid Targets in a High-Pressure Atmosphere -- $t chapter 4 Femtosecond Laser Ablation of Solid Targets in Vacuum and Low-Pressure Gas Atmosphere -- $t chapter 5 Short-Pulse Laser Near-Field Ablation of Solid Targets under Liquids -- $t chapter 6 MAPLE Deposition of Nanomaterials -- $t chapter 7 Thin Films and Nanoparticles by Pulsed Laser Deposition: Wetting, Adherence, and Nanostructuring / $r Carmen Ristoscu -- $t chapter 8 Core-Shell Nanoparticles for Energy Storage Applications / $r Manish Kothakonda -- $t chapter 9 Nanoparticle Generation by Double-Pulse Laser Ablation / $r Emanuel Axente -- $t chapter 10 Ultrafast Laser-Induced Phenomena inside Transparent Materials -- $t chapter 11 Ultrafast Processes on Semiconductor Surfaces Initiated by Temporally Shaped Femtosecond Laser Pulses -- $t chapter 12 Atomistic Simulations of the Generation of Nanoparticles in Short-Pulse Laser Ablation of Metals: Effect of Background Gas and Liquid Environments -- $t chapter 13 Laser Nanostructuring of Polymers -- $t chapter 14 Laser Materials Processing for Energy Storage Applications.
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$a "Pulsed laser-based techniques for depositing and processing materials are an important area of modern experimental and theoretical scientific research and development, with promising, challenging opportunities in the fields of nanofabrication and nanostructuring. Understanding the interplay between deposition/processing conditions, laser parameters, as well as material properties and dimensionality is demanding for improved fundamental knowledge and novel applications. This book introduces and discusses the basic principles of pulsed laser-matter interaction, with a focus on its peculiarities and perspectives compared to other conventional techniques and state-of-the-art applications. The book starts with an overview of the growth topics, followed by a discussion of laser-matter interaction depending on laser pulse duration, background conditions, materials, and combination of materials and structures. The information outlines the foundation to introduce examples of laser nanostructuring/processing of materials, pointing out the importance of pulsed laser-based technologies in modern (nano)science.With respect to similar texts and monographs, the book offers a comprehensive review including bottom-up and top-down laser-induced processes for nanoparticles and nanomicrostructure generation. Theoretical models are discussed by correlation with advanced experimental protocols in order to account for the fundamentals and underline physical mechanisms of laser-matter interaction. Reputed, internationally recognized experts in the field have contributed to this book.In particular, this book is suitable for a reader (graduate students as well as postgraduates and more generally researchers) new to the subject of pulsed laser ablation in order to gain physical insight into and advanced knowledge of mechanisms and processes involved in any deposition/processing experiment based on pulsed laser-matter interaction. Since knowledge in the field is given step by step comprehensively, this book serves as a valid introduction to the field as well as a foundation for further specific readings."--Provided by publisher.
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| Summary | "Pulsed laser-based techniques for depositing and processing materials are an important area of modern experimental and theoretical scientific research and development, with promising, challenging opportunities in the fields of nanofabrication and nanostructuring. Understanding the interplay between deposition/processing conditions, laser parameters, as well as material properties and dimensionality is demanding for improved fundamental knowledge and novel applications. This book introduces and discusses the basic principles of pulsed laser-matter interaction, with a focus on its peculiarities and perspectives compared to other conventional techniques and state-of-the-art applications. The book starts with an overview of the growth topics, followed by a discussion of laser-matter interaction depending on laser pulse duration, background conditions, materials, and combination of materials and structures. The information outlines the foundation to introduce examples of laser nanostructuring/processing of materials, pointing out the importance of pulsed laser-based technologies in modern (nano)science.With respect to similar texts and monographs, the book offers a comprehensive review including bottom-up and top-down laser-induced processes for nanoparticles and nanomicrostructure generation. Theoretical models are discussed by correlation with advanced experimental protocols in order to account for the fundamentals and underline physical mechanisms of laser-matter interaction. Reputed, internationally recognized experts in the field have contributed to this book.In particular, this book is suitable for a reader (graduate students as well as postgraduates and more generally researchers) new to the subject of pulsed laser ablation in order to gain physical insight into and advanced knowledge of mechanisms and processes involved in any deposition/processing experiment based on pulsed laser-matter interaction. Since knowledge in the field is given step by step comprehensively, this book serves as a valid introduction to the field as well as a foundation for further specific readings."--Provided by publisher. |
| Contents | chapter 1 Surface Energy and Nucleation Modes -- chapter 2 Nanosecond Laser Ablation and Processing of Solid Targets in Vacuum or in a Low-Gas Atmosphere -- chapter 3 Nanosecond Laser Ablation of Solid Targets in a High-Pressure Atmosphere -- chapter 4 Femtosecond Laser Ablation of Solid Targets in Vacuum and Low-Pressure Gas Atmosphere -- chapter 5 Short-Pulse Laser Near-Field Ablation of Solid Targets under Liquids -- chapter 6 MAPLE Deposition of Nanomaterials -- chapter 7 Thin Films and Nanoparticles by Pulsed Laser Deposition: Wetting, Adherence, and Nanostructuring / chapter 8 Core-Shell Nanoparticles for Energy Storage Applications / chapter 9 Nanoparticle Generation by Double-Pulse Laser Ablation / chapter 10 Ultrafast Laser-Induced Phenomena inside Transparent Materials -- chapter 11 Ultrafast Processes on Semiconductor Surfaces Initiated by Temporally Shaped Femtosecond Laser Pulses -- chapter 12 Atomistic Simulations of the Generation of Nanoparticles in Short-Pulse Laser Ablation of Metals: Effect of Background Gas and Liquid Environments -- chapter 13 Laser Nanostructuring of Polymers -- chapter 14 Laser Materials Processing for Energy Storage Applications. |
| Subject | LASER PULSES, ULTRASHORT. MATERIALS SCIENCE. |
| Multimedia |