3 Synthetic nanomaterials: fabrication, development, and characterization
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Ravi Shankar Rai
Abstract
The present era is considered as the nanotech age and over the last two decades considerable growth in the field of synthetic nanomaterials has happened. The demand for nanomaterials has improved extensively in a variety of industries, including electronics, pharmaceuticals, energy, defense, agriculture, food, and sanitation because of their tunable, physical, chemical, and biological properties compared to their bulk counterparts. Synthetic nanomaterials are classified based on their size, shape, composition, origin, and toxicity. Due to the increasing utility and industrial applications of nanomaterials, it has become important to study their fabrication, recent developments, advanced characterization techniques, and sustainability. Therefore, researchers and technocrats must collaborate to fabricate better and nontoxic nanomaterials that can diminish negative impacts of nanotechnology. In the present chapter, detailed discussions on the fabrication and characterization techniques along with recent developments in the field of synthetic nanomaterials has been explored. Further, categorization of synthetic nanomaterials and their current scenario have been discussed to provide a basis to researchers for developing new combinations of synthetic nanomaterials. The chapter concludes with a summary, future perspectives of synthetic nanomaterials, current issues and their potential solutions, and future outlook.
Abstract
The present era is considered as the nanotech age and over the last two decades considerable growth in the field of synthetic nanomaterials has happened. The demand for nanomaterials has improved extensively in a variety of industries, including electronics, pharmaceuticals, energy, defense, agriculture, food, and sanitation because of their tunable, physical, chemical, and biological properties compared to their bulk counterparts. Synthetic nanomaterials are classified based on their size, shape, composition, origin, and toxicity. Due to the increasing utility and industrial applications of nanomaterials, it has become important to study their fabrication, recent developments, advanced characterization techniques, and sustainability. Therefore, researchers and technocrats must collaborate to fabricate better and nontoxic nanomaterials that can diminish negative impacts of nanotechnology. In the present chapter, detailed discussions on the fabrication and characterization techniques along with recent developments in the field of synthetic nanomaterials has been explored. Further, categorization of synthetic nanomaterials and their current scenario have been discussed to provide a basis to researchers for developing new combinations of synthetic nanomaterials. The chapter concludes with a summary, future perspectives of synthetic nanomaterials, current issues and their potential solutions, and future outlook.
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Acknowledgments VII
- Contents IX
- 1 The current scenario in nanocomposite and nanohybrid materials 1
- 2 A current perspective on nanocomposite and nanohybrid material: developments and trends 29
- 3 Synthetic nanomaterials: fabrication, development, and characterization 55
- 4 Advances in fabrication, development, and characterization of synthetic nanomaterials 85
- 5 Structural, morphological, thermal, and long persistent properties of synthesized nanostructured phosphor 99
- 6 Mechanical characteristics and surface roughness testing of nanomaterials in enhancing the discharge over spillways 117
- 7 Biomedical considerations of nanomaterials based on biological aspects in biomedical field 139
- 8 Nanomaterial-based molecular imaging and targeted cancer therapy: current progress and limitations 161
- 9 Emerging perspectives of nanoparticles to treat neurodegenerative diseases 179
- 10 Understanding antibacterial disinfection mechanisms of oxide-based photocatalytic materials 195
- 11 Nanocomposites and nanohybrids in additive manufacturing 223
- 12 Characterization and mechanical properties analysis of carbon nanotube and hydroxyapatite-modified polymethyl methacrylate bone cement for bio-nanocomposite 237
- 13 Role of nanomaterials in enhancing the performance of polymer composite materials 259
- 14 Nanotechnology: a novel weapon for insect pest and vector management 277
- 15 Effect of carbon nanotubes, aluminum hydroxide, and zinc borate on the mechanical and fire properties of epoxy nanocomposite 297
- 16 Recent advancements in polymer nanocomposites-based adsorbents for chromium removal 315
- About the editors 337
- List of contributors 339
- Index 343
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Acknowledgments VII
- Contents IX
- 1 The current scenario in nanocomposite and nanohybrid materials 1
- 2 A current perspective on nanocomposite and nanohybrid material: developments and trends 29
- 3 Synthetic nanomaterials: fabrication, development, and characterization 55
- 4 Advances in fabrication, development, and characterization of synthetic nanomaterials 85
- 5 Structural, morphological, thermal, and long persistent properties of synthesized nanostructured phosphor 99
- 6 Mechanical characteristics and surface roughness testing of nanomaterials in enhancing the discharge over spillways 117
- 7 Biomedical considerations of nanomaterials based on biological aspects in biomedical field 139
- 8 Nanomaterial-based molecular imaging and targeted cancer therapy: current progress and limitations 161
- 9 Emerging perspectives of nanoparticles to treat neurodegenerative diseases 179
- 10 Understanding antibacterial disinfection mechanisms of oxide-based photocatalytic materials 195
- 11 Nanocomposites and nanohybrids in additive manufacturing 223
- 12 Characterization and mechanical properties analysis of carbon nanotube and hydroxyapatite-modified polymethyl methacrylate bone cement for bio-nanocomposite 237
- 13 Role of nanomaterials in enhancing the performance of polymer composite materials 259
- 14 Nanotechnology: a novel weapon for insect pest and vector management 277
- 15 Effect of carbon nanotubes, aluminum hydroxide, and zinc borate on the mechanical and fire properties of epoxy nanocomposite 297
- 16 Recent advancements in polymer nanocomposites-based adsorbents for chromium removal 315
- About the editors 337
- List of contributors 339
- Index 343
