دانلود کتاب In-Situ Transmission Electron Microscopy
کتاب میکروسکوپ الکترونی انتقال درجا نسخه زبان اصلی
دانلود کتاب میکروسکوپ الکترونی انتقال درجا بعد از پرداخت مقدور خواهد بود
توضیحات کتاب در بخش جزئیات آمده است و می توانید موارد را مشاهده فرمایید
توضیحاتی در مورد کتاب In-Situ Transmission Electron Microscopy
نام کتاب : In-Situ Transmission Electron Microscopy
عنوان ترجمه شده به فارسی : میکروسکوپ الکترونی انتقال درجا
سری :
نویسندگان : Litao Sun, Tao Xu, Ze Zhang
ناشر : Springer
سال نشر : 2023
تعداد صفحات : 377
[378]
ISBN (شابک) : 9811968446 , 9789811968440
زبان کتاب : English
فرمت کتاب : pdf
حجم کتاب : 19 Mb
بعد از تکمیل فرایند پرداخت لینک دانلود کتاب ارائه خواهد شد. درصورت ثبت نام و ورود به حساب کاربری خود قادر خواهید بود لیست کتاب های خریداری شده را مشاهده فرمایید.
توضیحاتی در مورد کتاب :
این کتاب بر روی میکروسکوپ الکترونی عبوری درجا (TEM) تمرکز دارد، یک تکنیک تحقیقی که برای مشاهده پاسخ نمونه به یک محرک مشخص (شامل تابش الکترونی، تحریک حرارتی، نیروی مکانیکی، تحریک نوری، الکتریکی و مغناطیسی) استفاده میشود. میدان ها) در مقیاس نانو در زمان واقعی. این کتاب خوانندگان را با استراتژی فنی پشت تکنیک درجا و پیشرفت های آن آشنا می کند. این مقاله مرزهای تحقیقاتی استفاده از TEM درجا در تبدیل و ذخیره انرژی، کاتالیز، سنتز نانومواد، نانوالکترونیک و غیره را بررسی میکند. این کتاب راهنمای ارزشمندی را برای همه دانشجویان کارشناسی و کارشناسی ارشد که به فناوری خصوصیات TEM علاقه مند هستند ارائه می دهد. همچنین به عنوان یک منبع مرجع در مورد تکنیک های پیشرفته در محل برای محققان و مهندسان عمل می کند.
فهرست مطالب :
Foreword
Preface
Contents
1 Introduction to In-Situ Transmission Electron Microscopy
1.1 Definition of In-Situ Transmission Electron Microscopy
1.2 A Brief History of In-Situ Transmission Electron Microscopy
1.3 Modern In-Situ Transmission Electron Microscopy
1.4 Challenges and Opportunities
1.5 Concept of This Book
References
2 Electron Beam Irradiation Effects and In-Situ Irradiation of Nanomaterials
2.1 A Brief History of In-Situ Electron Irradiation
2.2 Fundamental Electron Irradiation Effects
2.2.1 Atom Displacements
2.2.2 Surface Sputtering
2.2.3 Electrostatic Charging
2.2.4 Radiolysis
2.2.5 Electron Beam Heating
2.2.6 Electron Beam-Induced Deposition
2.3 Electron Irradiation-Induced Processes in Nanomaterials
2.3.1 The Dynamics of Defects Under Electron Beam Irradiation
2.3.2 Irradiation-Induced Phase Transformations
2.3.3 Nucleation and Growth of Nanostructures Under Irradiation
2.3.4 Fabrication of New Structures Under Irradiation
2.3.5 Deformation of Nanostructures Under Electron Irradiation
2.4 Conclusions and Outlook
References
3 In-Situ Nanomechanical TEM
3.1 A Brief History of In Situ Nanomechanical TEM
3.2 Current In Situ TEM-based Mechanical Testing Techniques
3.2.1 Thin Film Straining Technique
3.2.2 TEM Grid Technique
3.2.3 Thermal-Bimetallic-Based Technique
3.2.4 MEMS-Based Techniques
3.2.5 Sequential Fabrication-Testing Technique
3.3 Typical Applications
3.3.1 Deformation of Metallic Nanowires
3.3.2 Deformation of Nanocrystalline Metals
3.3.3 Deformation at Grain Boundaries
3.3.4 Deformation Under Elevated Temperature
3.3.5 Deformation of “Brittle” Materials
3.4 Outlook
References
4 In-Situ Heating TEM
4.1 A Brief History of In-Situ Heating TEM
4.2 Current In-Situ Heating TEM Technologies
4.2.1 Operation Mode
4.2.2 Type of Heating Holders
4.2.3 Microheaters
4.2.4 Synergy with Heating
4.3 Research Based on In-Situ Heating TEM
4.3.1 Material Growth
4.3.2 Sublimation and Surface Energy
4.3.3 Failure Analysis
4.3.4 Annealing and Phase Transitions
4.3.5 Catalysis and Battery
4.3.6 Solid-State Amorphization and Crystallization
4.3.7 Degradation of Perovskite Solar Cells
4.4 Conclusions and Outlook
References
5 In-Situ Biasing TEM
5.1 Introduction
5.2 Electrical Measurements
5.2.1 Field Emission of Carbon Nanotubes and Nanowires
5.2.2 Quantum Conductance of Au Atomic Chain and MWCNT
5.2.3 Electrical and Mechanical Coupling
5.2.4 Ferroelectric Domain Switching
5.2.5 Resistive Switching
5.3 Electrothermal Behaviors and Measurements
5.3.1 Thermal Parameter Measurements
5.3.2 Joule Heating of Nanocarbon
5.4 In Situ TEM Nanoelectrochemistry
5.4.1 IL Cell
5.4.2 Solid Cell
5.4.3 In Situ Liquid Cell
5.5 Perspective
References
6 In-Situ Optical TEM
6.1 Introduction
6.2 Three Typical Technical Routes for in Situ Optical Experimental Setups
6.2.1 Based on Light-Path
6.2.2 Based on the TEM-STM Holder
6.2.3 Based on in Situ MEMS Chips
6.3 Applications
6.3.1 Photocatalyst
6.3.2 PL and CL
6.3.3 Photocurrent
6.4 Future and Opportunities
References
7 Magnetism In-Situ TEM
7.1 A Brief History of Magnetism In-Situ TEM
7.2 Current Technologies of Magnetism In-Situ TEM
7.2.1 Conventional Imaging Methods in Lorentz TEM
7.2.2 Electron Holography Technology
7.2.3 Differential Phase Technology
7.2.4 Energy-Loss Magnetic Chiral Dichroism in TEM
7.2.5 Application of Magnetic Field by Objective Lens
7.2.6 Application of Magnetic Field by Magnetic Holder
7.3 Research on Magnetism In-Situ TEM
7.3.1 Traditional Magnetic Materials In Situ TEM
7.3.2 Magnetic Thin Films In Situ TEM
7.3.3 Magnetic Nanowires/Particles In Situ TEM
7.3.4 Magnetic Skyrmion In Situ TEM
7.3.5 Other Magneto-Related Experiments In Situ TEM
7.4 Conclusions and Outlook
References
8 In-Situ Liquid Cell TEM
8.1 A Brief History of In-Situ Liquid Cell TEM
8.2 Current In-Situ Liquid Cell TEM Technologies
8.2.1 Static Liquid Cell
8.2.2 Flow Cell
8.2.3 Introduction of Multi-Fields to Liquid Cell
8.3 Research Based on In-Situ Liquid Cell TEM
8.3.1 Physical Motion
8.3.2 Nucleation
8.3.3 Growth
8.3.4 Etching
8.3.5 Electrochemistry
8.3.6 Photocatalysis
8.3.7 Life Science
8.4 Conclusions and Outlook
References
9 In-Situ Gas Transmission Electron Microscopy
9.1 A History of In Situ Gas TEM
9.2 In Situ Gas TEM Technologies
9.2.1 Aperture (Opened) Approach
9.2.2 Window (Closed) Approach
9.3 Research Based on In Situ Gas TEM
9.3.1 Reshaping of Nanomaterials
9.3.2 Redox of Nanomaterials
9.3.3 Surface Reconstruction and Segregation
9.3.4 Growth of Low-Dimensional Nanomaterials
9.3.5 The Catalyzation
9.4 Conclusions and Outlook
9.4.1 Spatial and Temporal Resolution
9.4.2 Multiple Stimuli and Characterization Techniques
9.4.3 Accurate Process Control
References
10 4D Ultrafast TEM
10.1 A Brief History of 4D Ultrafast TEM
10.2 4D Ultrafast Electron Imaging in Space and Time
10.3 Research Based on 4D Ultrafast TEM
10.3.1 Phase Transitions
10.3.2 Oscillation Behavior
10.3.3 Electron–Phonon Coupling
10.3.4 Crystal Nucleation and Growth
10.3.5 Reaction Dynamics
10.3.6 Dynamics in Liquids
10.3.7 4D Electron Tomography
10.3.8 PINEM
10.3.9 Ultrafast EELS
10.3.10 Biological Dynamics
10.3.11 Instrumental Development
10.4 Conclusions and Outlook
References
توضیحاتی در مورد کتاب به زبان اصلی :
This book focuses on in-situ transmission electron microscopy (TEM), an investigatory technique used to observe a sample’s response to a given stimulus (including electron irradiation, thermal excitation, mechanical force, optical excitation, electric and magnetic fields) at the nanoscale in real time. The book introduces readers to the technical strategy behind the in-situ technique and its developments. It reviews the research frontiers of using in-situ TEM in energy conversion and storage, catalysis, nanomaterials synthesis, nanoelectronics, etc. Furthermore, it discusses the future prospects for in-situ TEM. The book offers a valuable guide for all undergraduate and graduate students who are interested in TEM characterization technology. It also serves as a reference source on cutting-edge in-situ techniques for researchers and engineers.