Nanomaterial Characterization (eBook)

An Introduction

(Autor)

eBook Download: PDF
2016
John Wiley & Sons (Verlag)
978-1-118-75384-2 (ISBN)

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Nanomaterial Characterization - Ratna Tantra
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Nanomaterial Characterization Providing various properties of nanomaterials and the various methods available for their characterization Over the course of the last few decades, research activity on nanomaterials has gained considerable press coverage. The use of nanomaterials has meant that consumer products can be made lighter, stronger, esthetically more pleasing, and less expensive. The significant role of nanomaterials in improving the quality of life is clear, resulting in faster computers, cleaner energy production, target-driven pharmaceuticals, and better construction materials. It is not surprising, therefore, that nanomaterial research has really taken off, spanning across different scientific disciplines from material science to nanotoxicology. A critical part of any nanomaterial research, however, is the need to characterize physicochemical properties of the nanomaterials, which is not a trivial matter. Nanomaterial Characterization: An Introduction is dedicated to understanding the key physicochemical properties and their characterization methods. Each chapter begins by giving an overview of the topic before a case study is presented. The purpose of the case study is to demonstrate how the reader may make use of the background information presented to them and show how this can be translated to solve a nanospecific application scenario. Thus, it will be useful for researchers in helping them design experimental investigations. The book begins with a general overview of the subject, thus giving the reader a solid foundation to nanomaterial characterization. Nanomaterial Characterization: An Introduction features: Nanomaterial synthesis and reference nananomaterials Key physicochemical properties and their measurements including particle size distribution by number, solubility, surface area, surface chemistry, mechanical/tribological properties, and dustiness Scanning tunneling microscopy methods operated under extreme conditions Novel strategy for biological characterization of nanomaterial methods Methods to handle and visualize multidimensional nanomaterial characterization data The book is written in such a way that both students and experts in other fields of science will find the information useful, whether they are in academia, industry, or regulation, or those whose analytical background may be limited.There is also an extensive list of references associated with every chapter to encourage further reading.

Ratna Tantra is a Senior Scientist at National Physical Laboratory (NPL), UK. She has been at NPL for 14 years and worked on numerous projects in the field of nanoscience. Her multidisciplinary background was useful, allowing an expansion of her research portfolio in the area of nanomaterial characterization in different scientific disciplines, for example, surface-enhanced Raman spectroscopy and nanotoxicology. Before joining NPL, she was a research associate at Imperial College London, then University of Glasgow. She got her PhD in electrochemistry from University College London. She is a Chartered Scientist, Chartered Chemist, and member of the Royal Society of Chemistry.

List of Contributors

Editor's Preface

CHAPTER 1. Introduction

1.1 Overview

1.2 Properties Unique to Nanomaterials

1.3 Terminology

1.4 Measurement of good practice

1.5 Typical Methods

1.6 Potential errors due to Chosen Methods

1.7 Summary

CHAPTER 2. Nanomaterial Synthesis

2.1 Introduction

2.2 Bottom-Up Approach

2.3 Synthesis: Top Down Approach

2.4 Bottom up and top-down: Lithography

2.5 Bottom up or top down? Case example: carbon nanotubes (CNTs)

2.6 Particle growth: theoretical considerations

2.7 Case Study: Microreactor for Synthesise of Gold Nanoparticles

2.8 Summary

CHAPTER 3. Reference Nanomaterials

3.1 Definition, development and application fields

3.2 Case studies

3.3 Summary

CHAPTER 4. Particle Number Size Distribution

4.1 Introduction

4.2 Measuring methods

4.3 Summary of capabilities of the counting techniques

4.4 Experimental Case Study

4.5 Summary

CHAPTER 5. Solubility Part 1: Overview

5.1 Introduction

5.2 Separation Methods

5.3 Quantification Methods: free ions (and labile fractions)

5.4 Quantification Methods to Measure Total Dissolved Species

5.5 Theoretical modelling using speciation software

5.6 Which Method?

5.7 Case study: Miniaturised capillary electrophoresis with conductivity detection to determine nanomaterial solubility

5.8 Summary

CHAPTER 6. Solubility Part 2: Colorimetry

6.1 Introduction

6.2 Materials and Method

6.3 Results and Interpretation

6.4 Conclusion

CHAPTER 7. Surface Area

7.1 Introduction

7.2 Measurement Methods: Overview

7.3 Case Study: Evaluating Powder Homogeneity using NMR vs. BET

7.4 Summary

CHAPTER 8. Surface Chemistry

8.1 Introduction

8.2 Measurement Challenges

8.3 Analytical Techniques

8.4 Case Studies

8.5 Summary

CHAPTER 9. Mechanical, Tribological Properties and Surface Characteristics of Nanotextured Surfaces

9.1 Introduction

9.2 Fabricating Nano-textured Surfaces

9.3 Mechanical property characterization

9.4 Case study: Nanoscratch tests to characterize mechanical stability of PS/PMMA surfaces

9.5 Case study: Structural Integrity of multi-walled CNT forest

9.6 Case study: Mechanical Characterization of plasma-treated polylactic acid (PLA) for packaging applications

9.7 Conclusions

CHAPTER 10. Methods for Testing Dustiness

10.1 Introduction

10.2 CEN test methods (under consideration)

10.3 Case Studies: Application of Dustiness Data

10.4 Summary

CHAPTER 11. Scanning Tunneling Microscopy and Spectroscopy for Nanofunctionality Characterization

11.1 Introduction

11.2 Extreme Field STM: A brief history

11.3 STM/STS for the Extraction of Surface Local Density of States (LDOS): Theoretical Background

11.4 Scanning Tunneling Spectroscopy (STS) at Low Temperatures: Background

11.5 STM Instrumentation at Extreme Conditions: Specification Requirements and Design

11.6 STM/STS imaging under extreme environments: a review on applications

11.7 Summary and Future Outlook

CHAPTER 12. Biological characterization of nanomaterials

12.1 Introduction

12.2 Measurement methods

12.3 Experimental Case Study

12.4 Summary

CHAPTER 13. Visualisation of Multidimensional Data for Nanomaterial Characterisation

13.1. Introduction

13.2 Case Study: Structure Activity Relationship (SAR) Analysis of Nanoparticle Toxicity

13.3. Summary

"For those actively involved in the nanosafety and other relevant research fields involving nanomaterials, as well as those new to the field, this book represents an excellent reference point and source of knowledge." (Andy Booth 2016)

Erscheint lt. Verlag 24.3.2016
Sprache englisch
Themenwelt Naturwissenschaften Chemie Organische Chemie
Technik Maschinenbau
Schlagworte Analysis • Arbeitssicherheit • Arbeitssicherheit u. Umweltschutz i. d. Chemie • Best Practices • biological characterisation • characterization • Chemical and Environmental Health and Safety • Chemie • Chemistry • dustiness • Environmental Chemistry • Mechanical • Metrology • multidimensional data • Nanomaterial • Nanomaterialien • nanomaterials • Nanotechnologie • nanotechnology • Particle Size • Properties • Reference Materials • Scanning Tunnelling Microscopy • Solubility • Surface Area • Surface Chemistry • synthesis • Terminology • Tribological • Umweltchemie
ISBN-10 1-118-75384-4 / 1118753844
ISBN-13 978-1-118-75384-2 / 9781118753842
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