Magneto Luminous Chemical Vapor Deposition
Wysyłka: Niedostępna
Sugerowana cena detaliczna 658,35 PLN
Nasza cena: 615,56 PLN
Oszczędzasz 6%
Dodaj do Schowka
Zaloguj się
Przypomnij hasło
×
×
Oferujemy szeroki asortyment - ponad 120 tys. produktów
Dysponujemy solidną wiedzą - działamy już 11 lat
Dbamy o wybór najcenniejszych tytułów
Opis: Magneto Luminous Chemical Vapor Deposition - Hirotsugu Yasuda

The magneto luminous chemical vapor deposition (MLCVD) method is the perfect example of the "front-end green process." It employs an entirely new process that expends the minimum amount of materials in gas phase, yields virtually no effluent, and therefore requires no environmental remediation. Unlike the "back-end green process," which calls for add-on processes to deal with effluent problems, the newer MLCVD approach is a completely different phenomenon that has never been adequately described, until now. Dispelling previous misconceptions and revealing new areas for investigation, Magneto Luminous Chemical Vapor Deposition describes the key process of dielectric breakdown of gas molecules under the influence of a magnetic field. It emphasizes behavioral distinctions between molecular gasses that cause plasma polymerization (such as methane and trimethylsilane) and mono-atomic gases (e.g., helium and argon) when dealing with the dielectric breakdown of the gas phase under low pressure. The author also reveals his minimum perturbation theory of biocompatibility. This is based on the realization that nanofilms prepared using MLCVD have unique, stable interfacial characteristics necessary to achieve a surface that can be tolerated in various biological environments. The author presents alternating views based on NASA's recent discovery that a magnetic field burst from the earth triggers the inception of the aurora borealis. Detailing similarities between this phenomenon and the inception of the magneto luminous gas phase described in this book, the author proposes that proof of the one occurrence could shed light on the other. Expanding on the author's previous works, this book introduces new discoveries, highlights the newfound errors of previous assumptions, and juxtaposes many cutting-edge alternative views and anomalies associated with the field.Introduction Context of Term Used and Notion Plasma Electric Discharge of Gas Gas Phase Polymerization & Material Formation Surface & Interface Bio-Compatibility Green Deposition Coating of Nano Films Front-End Approach & Rear-End Approach in Green Processing Low Pressure MLCVD Coati Layer-By-Layer (LBL) Coating Cost of Coating Processes System Approach Interface Engineering with Green Processes System Approach Interface Engineering for Corrosion Protection Green System Approach Interface Engineering by Magneto-Luminous CVD Plasma Phase and Luminous Gas Phase Plasma Phase Luminous Gas Phase Dielectric Breakdown of Gas Phase Significance of Dielectric Breakdown of Gas on Luminous Chemical Vapor Deposition Breakdown of Non-Deposition Gas & Deposition Gas Source of Electrons for Electron Avalanche to Cause Gas Phase Breakdown Interfacial Electron Transfer Experimental Examination of Gas Phase Breakdown Factors That Control the Transformation of Gas Phase Electron Negativity of Atoms & EFFICIENCY OF ELECTRON-IMPACT REACTIONS Gas Phase Breakdown as Functions of the System Parameters Influence of Magnetic Field on Luminous Gas Phase Influence of Magnetic Field on Roles of Electrons Shaping of Negative Glow near The Magnetron Anode Influence of Magnetic Field on the Dielectric Breakdown Process Electrons in Electric Field and in Magnetic Field Implications of Magnetron Gas Phase Breakdown Magnetic Field Initiation of Luminous Gas Phase Polymer Formation Mechanism in Luminous Gas Free-Radical Polymerization & Free-Radical Polymer Formation in Luminous Gas Phase Repeating Step Growth Polymerization (RSGP) Mechanism Competitive Ablation & Polymerization (CAP) Principle Influence of Un-Accounted Factors Dissociation of Monomer Molecules Dependence of Polymer Formation on Operation Parameters Operation Parameters & Deposition Kinetics Operation Parameters & Plasma Polymerization Processes Deposition Kinetics Properties of Plasma Polymers and Domains of Plasma Polymerization Partition of Deposition on Electrode and Deposition on Surface in Gas Magneto-Luminous Chemical Vapor Deposition Domain of MLCVD Toroidal Glow Surface without Deposition Confined Luminous Gas Phase in Low-Pressure Polymer Formation and Deposition in Low-Pressure Applications of Magneto Luminous Chemical Vapor Deposition Implantation of Imperturbable Surface State on Substrate MLCVD Nano Film for Bio-Compatibility Interface Engineering for Adhesion of Coating


Szczegóły: Magneto Luminous Chemical Vapor Deposition - Hirotsugu Yasuda

Tytuł: Magneto Luminous Chemical Vapor Deposition
Autor: Hirotsugu Yasuda
Producent: CRC Press Inc.
ISBN: 9781439838778
Rok produkcji: 2011
Ilość stron: 268
Oprawa: Twarda
Waga: 0.54 kg


Recenzje: Magneto Luminous Chemical Vapor Deposition - Hirotsugu Yasuda
Zaloguj się
Przypomnij hasło
×
×

Magneto Luminous Chemical Vapor Deposition

The magneto luminous chemical vapor deposition (MLCVD) method is the perfect example of the "front-end green process." It employs an entirely new process that expends the minimum amount of materials in gas phase, yields virtually no effluent, and therefore requires no environmental remediation. Unlike the "back-end green process," which calls for add-on processes to deal with effluent problems, the newer MLCVD approach is a completely different phenomenon that has never been adequately described, until now. Dispelling previous misconceptions and revealing new areas for investigation, Magneto Luminous Chemical Vapor Deposition describes the key process of dielectric breakdown of gas molecules under the influence of a magnetic field. It emphasizes behavioral distinctions between molecular gasses that cause plasma polymerization (such as methane and trimethylsilane) and mono-atomic gases (e.g., helium and argon) when dealing with the dielectric breakdown of the gas phase under low pressure. The author also reveals his minimum perturbation theory of biocompatibility. This is based on the realization that nanofilms prepared using MLCVD have unique, stable interfacial characteristics necessary to achieve a surface that can be tolerated in various biological environments. The author presents alternating views based on NASA's recent discovery that a magnetic field burst from the earth triggers the inception of the aurora borealis. Detailing similarities between this phenomenon and the inception of the magneto luminous gas phase described in this book, the author proposes that proof of the one occurrence could shed light on the other. Expanding on the author's previous works, this book introduces new discoveries, highlights the newfound errors of previous assumptions, and juxtaposes many cutting-edge alternative views and anomalies associated with the field.Introduction Context of Term Used and Notion Plasma Electric Discharge of Gas Gas Phase Polymerization & Material Formation Surface & Interface Bio-Compatibility Green Deposition Coating of Nano Films Front-End Approach & Rear-End Approach in Green Processing Low Pressure MLCVD Coati Layer-By-Layer (LBL) Coating Cost of Coating Processes System Approach Interface Engineering with Green Processes System Approach Interface Engineering for Corrosion Protection Green System Approach Interface Engineering by Magneto-Luminous CVD Plasma Phase and Luminous Gas Phase Plasma Phase Luminous Gas Phase Dielectric Breakdown of Gas Phase Significance of Dielectric Breakdown of Gas on Luminous Chemical Vapor Deposition Breakdown of Non-Deposition Gas & Deposition Gas Source of Electrons for Electron Avalanche to Cause Gas Phase Breakdown Interfacial Electron Transfer Experimental Examination of Gas Phase Breakdown Factors That Control the Transformation of Gas Phase Electron Negativity of Atoms & EFFICIENCY OF ELECTRON-IMPACT REACTIONS Gas Phase Breakdown as Functions of the System Parameters Influence of Magnetic Field on Luminous Gas Phase Influence of Magnetic Field on Roles of Electrons Shaping of Negative Glow near The Magnetron Anode Influence of Magnetic Field on the Dielectric Breakdown Process Electrons in Electric Field and in Magnetic Field Implications of Magnetron Gas Phase Breakdown Magnetic Field Initiation of Luminous Gas Phase Polymer Formation Mechanism in Luminous Gas Free-Radical Polymerization & Free-Radical Polymer Formation in Luminous Gas Phase Repeating Step Growth Polymerization (RSGP) Mechanism Competitive Ablation & Polymerization (CAP) Principle Influence of Un-Accounted Factors Dissociation of Monomer Molecules Dependence of Polymer Formation on Operation Parameters Operation Parameters & Deposition Kinetics Operation Parameters & Plasma Polymerization Processes Deposition Kinetics Properties of Plasma Polymers and Domains of Plasma Polymerization Partition of Deposition on Electrode and Deposition on Surface in Gas Magneto-Luminous Chemical Vapor Deposition Domain of MLCVD Toroidal Glow Surface without Deposition Confined Luminous Gas Phase in Low-Pressure Polymer Formation and Deposition in Low-Pressure Applications of Magneto Luminous Chemical Vapor Deposition Implantation of Imperturbable Surface State on Substrate MLCVD Nano Film for Bio-Compatibility Interface Engineering for Adhesion of Coating

Powiadom o dostępności
Podaj swój e-mail a zostaniesz poinformowany jak tylko pozycja będzie dostępna.
×
Cena 658,35 PLN
Nasza cena 615,56 PLN
Oszczędzasz 6%
Wysyłka: Niedostępna
Dodaj do Schowka
Zaloguj się
Przypomnij hasło
×
×

Szczegóły: Magneto Luminous Chemical Vapor Deposition - Hirotsugu Yasuda

Tytuł: Magneto Luminous Chemical Vapor Deposition
Autor: Hirotsugu Yasuda
Producent: CRC Press Inc.
ISBN: 9781439838778
Rok produkcji: 2011
Ilość stron: 268
Oprawa: Twarda
Waga: 0.54 kg


Recenzje: Magneto Luminous Chemical Vapor Deposition - Hirotsugu Yasuda

Zaloguj się
Przypomnij hasło
×
×

Klienci, którzy kupili oglądany produkt kupili także:


Zaloguj się
Przypomnij hasło
×
×
Dodane do koszyka
×