Synopses & Reviews
State-of-the-art nanostructuring principles, methods, and aplicationsSynthesize, characterize, and deploy highly miniaturized components using the theories and techniques contained in this comprehensive resource. Written by a nanotechnology expert, this authoritative volume covers the latest advances along with detailed schematics and real-world applications in engineering and the life sciences. Inside, 37 different nanostructuring methods and 16 different kinds of nanostructures are discussed.Nanostructuring Operations in Nanoscale Science and Engineering explains how to manufacture high-purity fullerenes, assemble carbon nanotubes, and use nanofluids and nanowires. You will also learn how to develop high-performance biochips, work with biomimetics, and design molecular machines. The book includes 540 end-of-chapter review questions to reinforce the material covered.Learn how to: Produce fullerenes using metallurgic, solar, and electric arc methodsUse arc discharge, laser ablation, CVD, and HIPCO to create CNTsBuild nanostructures with vacuum synthesis, gas evaporation, and lithographyWork with quantum dots, polymer thin films, nanofluids, and nanoceramicsDevelop biochips, biological nanovalves, and molecular machinesMimic biological characteristics and organic self-repair using biomimeticsModel nanoscale effects with relativistic and Laplace transformsCharacterize nanoscale material using x-ray and helium ion microscope
Synopsis
Nanoscale Science and Engineering pertains to the synthesis and characterization of nanostructures with one or two dimensions less that 100 nm. This book discusses the principles of nanotechnology particularly focusing on the application of chemical engineering principles in nanotechnology.
Synopsis
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State-of-the-art nanostructuring principles, methods, and aplications
Synthesize, characterize, and deploy highly miniaturized components using the theories and techniques contained in this comprehensive resource. Written by a nanotechnology expert, this authoritative volume covers the latest advances along with detailed schematics and real-world applications in engineering and the life sciences. Inside, 37 different nanostructuring methods and 16 different kinds of nanostructures are discussed.
Nanostructuring Operations in Nanoscale Science and Engineering explains how to manufacture high-purity fullerenes, assemble carbon nanotubes, and use nanofluids and nanowires. You will also learn how to develop high-performance biochips, work with biomimetics, and design molecular machines. The book includes 540 end-of-chapter review questions to reinforce the material covered.
Learn how to:
- Produce fullerenes using metallurgic, solar, and electric arc methods
- Use arc discharge, laser ablation, CVD, and HIPCO to create CNTs
- Build nanostructures with vacuum synthesis, gas evaporation, and lithography
- Work with quantum dots, polymer thin films, nanofluids, and nanoceramics
- Develop biochips, biological nanovalves, and molecular machines
- Mimic biological characteristics and organic self-repair using biomimetics
- Model nanoscale effects with relativistic and Laplace transforms
- Characterize nanoscale material using x-ray and helium ion microscope
Synopsis
Comprehensive expert coverage of nanostructures and potential applicationsThis definitive resource discusses the principles of nanotechnology, focusing on the application of chemical engineering principles in nanotechnology. The book covers carbon nanotubes, molecular machines, quantum dots, nanosensors, supramolecular chemistry, dendrimers, nanocomposites, biomimetic thin films, and the emerging area of nanobiotechnology. More than 20 different nanostructuring techniques are presented with schematics from the patent literature.Nanostructuring Operations in Nanoscale Science and Technology discusses different characterization techniques such as SAXS, WAXS, AFM, STM, SEM, and microwave spectroscopy. Nanoscale effects in time domain in heat conduction are also covered. The book includes more than 300 end-of-chapter exercises to review the material.