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Plasma processing of nanomaterials / edited by Mohan Sankaran.

Contributor(s): Sankaran, Mohan.
Material type: materialTypeLabelBookSeries: Nanomaterials and their applications: Publisher: Boca Raton : CRC Press, 2012Description: 1 online resource (xiii, 408 pages).ISBN: 9781315217055; 9781351824255; 9781439866771.Subject(s): Nanostructured materials | Plasma engineeringAdditional physical formats: Print version: : No titleDDC classification: 620.5 Online resources: Click here to view.
Contents:
1. Nanoscale etching and deposition / Nathan Marchack and Jane P. Chang -- 2. Extreme ultraviolet light lithography for producing nanofeatures in next-generation semiconductor processing / John Sporre and David N. Ruzic -- 3. Nonthermal plasma synthesis of semiconductor nanocrystals / Uwe Kortshagen and Lorenzo Mangolini -- 4. Microscale plasmas for metal and metal oxide nanoparticle synthesis / Davide Mariotti and R. Mohan Sankaran -- 5. Large-scale, plasma-assisted growth of nanowires / Uros Cvelbar and Mahendra K. Sunkara -- 6. Cathodic arc discharge for synthesis of carbon nanoparticles / Manish Chhowalla and H. Emrah Unalan -- 7. Atmospheric plasmas for carbon nanotubes (CNTs) / Jae Beom Park, Se Jin Kyung, and Geun Young Yeom -- 8. Structural control of single-walled carbon nanotubes by plasma chemical vapor deposition / Rikizo Hatakeyama and Toshiaki Kato -- 9. Graphene growth by plasma-enhanced chemical vapor deposition (PECVD) / M. Meyyappan and Jeong-Soo Lee -- 10. Modeling aspects of plasma-enhanced chemical vapor deposition of carbon-based materials / Erik Neyts. [et al.] -- 11. Modeling catalytic growth of one-dimensional nanostructures / Eugene Tam, Kostya (Ken) Ostrikov, and Tony Murphy -- 12. Diagnostics of energy fluxes in dusty plasmas / Horst R. Maurer and Holger Kersten -- 13. Selective functionalization and modification of carbon nanomaterials by plasma techniques / Yuhua Xue and Liming Dai -- 14. Plasma-liquid interactions for fabrication of nanobiomaterials / Toshiro Kaneko and Rikizo Hatakeyama -- 15. Assembly and self-organization of nanomaterials / Amanda Evelyn Rider and Kostya (Ken) Ostrikov.
Summary: Preface Green computing is an emerging interdisciplinary research area spanning across the fields of computer science and engineering, electrical engineering, and other engineering disciplines. Green computing or sustainable computing is the study and practice of using computing resources efficiently, which in turn can impact a spectrum of economic, ecological, and social objectives. Such practices include the implementation of energy-efficient central processing unit processors and peripherals as well as reduced resource consumption. During the last several decades and in particular in the last five years, the area has produced a prodigious amount of knowledge that needs to be consolidated in the form of a comprehensive book. Researchers and engineers are now considering energy as a first-class resource and are inventingmeans to manage it along with performance, reliability, and security. Thus, a considerable amount of knowledge has emerged, as is evident by numerous tracks in leading conferences in a wide variety of areas such as mobile and pervasive computing, circuit design, architecture, real-time systems, and software. Active research is going on in power and thermal management at the component, software, and system level, as well as on defining power management standards for servers and devices and operating systems. Heat dissipation control is equally important, forcing circuit designers and processor architects to consider not only performance issues but also factors such as packaging, reliability, dynamic power consumption, and the distribution of heat. Thus, research growth in this area has been explosive-- Provided by publisher.
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1. Nanoscale etching and deposition / Nathan Marchack and Jane P. Chang -- 2. Extreme ultraviolet light lithography for producing nanofeatures in next-generation semiconductor processing / John Sporre and David N. Ruzic -- 3. Nonthermal plasma synthesis of semiconductor nanocrystals / Uwe Kortshagen and Lorenzo Mangolini -- 4. Microscale plasmas for metal and metal oxide nanoparticle synthesis / Davide Mariotti and R. Mohan Sankaran -- 5. Large-scale, plasma-assisted growth of nanowires / Uros Cvelbar and Mahendra K. Sunkara -- 6. Cathodic arc discharge for synthesis of carbon nanoparticles / Manish Chhowalla and H. Emrah Unalan -- 7. Atmospheric plasmas for carbon nanotubes (CNTs) / Jae Beom Park, Se Jin Kyung, and Geun Young Yeom -- 8. Structural control of single-walled carbon nanotubes by plasma chemical vapor deposition / Rikizo Hatakeyama and Toshiaki Kato -- 9. Graphene growth by plasma-enhanced chemical vapor deposition (PECVD) / M. Meyyappan and Jeong-Soo Lee -- 10. Modeling aspects of plasma-enhanced chemical vapor deposition of carbon-based materials / Erik Neyts. [et al.] -- 11. Modeling catalytic growth of one-dimensional nanostructures / Eugene Tam, Kostya (Ken) Ostrikov, and Tony Murphy -- 12. Diagnostics of energy fluxes in dusty plasmas / Horst R. Maurer and Holger Kersten -- 13. Selective functionalization and modification of carbon nanomaterials by plasma techniques / Yuhua Xue and Liming Dai -- 14. Plasma-liquid interactions for fabrication of nanobiomaterials / Toshiro Kaneko and Rikizo Hatakeyama -- 15. Assembly and self-organization of nanomaterials / Amanda Evelyn Rider and Kostya (Ken) Ostrikov.

Preface Green computing is an emerging interdisciplinary research area spanning across the fields of computer science and engineering, electrical engineering, and other engineering disciplines. Green computing or sustainable computing is the study and practice of using computing resources efficiently, which in turn can impact a spectrum of economic, ecological, and social objectives. Such practices include the implementation of energy-efficient central processing unit processors and peripherals as well as reduced resource consumption. During the last several decades and in particular in the last five years, the area has produced a prodigious amount of knowledge that needs to be consolidated in the form of a comprehensive book. Researchers and engineers are now considering energy as a first-class resource and are inventingmeans to manage it along with performance, reliability, and security. Thus, a considerable amount of knowledge has emerged, as is evident by numerous tracks in leading conferences in a wide variety of areas such as mobile and pervasive computing, circuit design, architecture, real-time systems, and software. Active research is going on in power and thermal management at the component, software, and system level, as well as on defining power management standards for servers and devices and operating systems. Heat dissipation control is equally important, forcing circuit designers and processor architects to consider not only performance issues but also factors such as packaging, reliability, dynamic power consumption, and the distribution of heat. Thus, research growth in this area has been explosive-- Provided by publisher.

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