By S. Mukhopadhyay
Chapter 1 Key Attributes of Nanoscale fabrics and certain Functionalities rising from them (pages 1–32): Sharmila M. Mukhopadhyay
Chapter 2 Societal effect and destiny traits in Nanomaterials (pages 33–59): Sharmila M. Mukhopadhyay
Chapter three Fabrication strategies for turning out to be Carbon Nanotubes (pages 61–85): I. T. Barney
Chapter four Nanoparticles and Polymer Nanocomposites (pages 87–124): Guillermo A. Jimenez, Byoung J. Lee and Sadhan C. Jana
Chapter five Laser?Assisted Fabrication suggestions (pages 125–151): P. T. Murray
Chapter 6 Experimental Characterization of Nanomaterials (pages 153–174): A. G. Jackson
Chapter 7 Modeling and Simulation of Nanoscale fabrics (pages 175–198): Soumya S. Patnaik and Mesfin Tsige
Chapter eight Nanomaterials for substitute strength (pages 199–246): Hong Huang and Bor Z. Jang
Chapter nine Enhancement of through?Thickness Thermal Conductivity in Adhesively Bonded Joints utilizing Aligned Carbon Nanotubes (pages 247–269): Sangwook Sihn, Sabyasachi Ganguli, Ajit ok. Roy, Liangti Qu and Liming Dai
Chapter 10 Use of steel Nanoparticles in Environmental Cleanup (pages 271–319): Sushil R. Kanel, Chunming Su, Upendra Patel and Abinash Agrawal
Chapter eleven Use of Carbon Nanotubes in Water therapy (pages 321–368): Venkata ok. ok. Upadhyayula, Jayesh P. Ruparelia and Abinash Agrawal
Chapter 12 Peptide Nanotubes in Biomedical and Environmental functions (pages 369–391): Byung?Wook Park and Dong?Shik Kim
Read or Download Nanoscale Multifunctional Materials: Science and Applications PDF
Best materials & material science books
This ebook provides new and critical learn growth on composite fabrics that are engineered fabrics made up of or extra constituent fabrics with considerably varied actual or chemical homes and which stay separate and distinctive on a macroscopic point in the comprehensive constitution.
The overseas Workshop on Liquid Crystalline Polymers (LCPs) held in June 1993 in Italy attracted the various major researchers during this zone of polymer technological know-how. The assembly supplied a discussion board for the trade of analysis and concepts on present advancements and destiny learn and purposes of liquid crystalline polymers.
This ebook overviews the present prestige of study and improvement actions of CNTs in nanodevices, nanomaterials, or nanofabrication. This e-book provides 15 cutting-edge overview articles that disguise CNT synthesis applied sciences for growing to be hugely oriented CNTs, chirality-pure CNTs and CNTs at a wide throughput and coffee expense, CNT meeting innovations, CNT sorting and separation tactics, CNT functionalization engineering for extra functionalities, CNT basic homes and their practical/potential electric, digital, optical, mechanical, chemical and organic purposes.
- Strength and Failure of Visco-Elastic Materials
- Structure and Properties of Glassy Polymers
- International Smelting Technology Symposium: Incorporating the 6th Advances in Sulfide Smelting Symposium
- 12th INTERNATIONAL CERAMICS CONGRESS PART H. Geopolymers and Geocements: Low Environmentally Impact Ceramic Materials
- Magnesium Technology 2013
- Two-dimensional nanostructures
Additional info for Nanoscale Multifunctional Materials: Science and Applications
A. Solga, Z. Cerman, B. F. Striffler, M. Spaet, and W. Barthlott, The dream of staying clean: lotus and biomimetic surfaces, Bioinsp. , 2(4), 1–9, 2007. 81. T. Mueller, Biomimetics, design by nature, Natl. , p. 68, Apr. 2008. 82. Z. Guo, F. Zhou, J. Hao, and W. Liu, Stable biomimetic super-hydrophobic engineering materials, J. Am. Chem. , 127(45), 15670–15671, Oct. 2005. 83. Y. T. Cheng, D. E. Rodak, C. A. Wong, and C. A. Hayden, Effects of micro- and nanostructures on the self-cleaning behavior of lotus leaves, Nanotechnology, 17, 1359, 2006.
A. Stroscio, Introduction to Nanoelectronics: Science, Nanotechnology, Engineering, and Applications, Cambridge University Press, New York, 2007. 34. Z. Tang and P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications, Springer-Verlag, New York, 2008. 35. V. R. Reddy, Gold Nanoparticles: Synthesis and Applications, 2006, p. 1791, and references therein. 36. D. Patidar, K. S. Rathore, N. S. Saxena, K. Sharma, and T. P. Sharma, Energy band gap studies of CdS nanomaterials, J. , 3, 97–102, Oct.
54. Z. L. Wang, Zinc oxide nanostructures: growth, properties and applications, J. Phys. Condens. Matter, 16, 829–858, June 2004. 55. P. W. Fowler, Carbon cylinders: a new class of closed-shell clusters, J. Chem. , 86, 2073, 1990. 56. S. Iijima, T. Ichihashi, and Y. Ando, Pentagons, heptagons and negative curvature in graphite microtubule growth, Nature, 356, 776–778, 1992. 57. G. K. Mora, O. K. Varghesea, M. Paulosea, K. Shankara, and C. A. Grimes, A review on highly ordered, vertically oriented TiO2 nanotube arrays: fabrication, material properties, and solar energy applications, Solar Energy Mater.