Nanomaterials and nanotechnology
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1. History of nanotechnology
1. The early history of nanotechnology
1.1. Buckyballs: their history and discovery
1.2. Nanotechnology: market growth and regional initiatives
2. Synthesis of nanomaterials
2. Introduction to nanoparticle synthesis
2.1. Carbon nanomaterials
2.2. Graphene
2.3. Oxide nanoparticles
2.4. Synthesis of magnetite nanoparticles
2.5. Kitchen synthesis of nanorust
2.6. Semiconductor nanoparticles
2.7. Silver nanoparticles: a case study in cutting edge research
3. Characterization of nanomaterials
3.1. Analysis
1. Icp-aes analysis of nanoparticles
1.1. Tga/dsc-ftir characterization of oxide nanaoparticles
1.2. Thermogravimetric analysis of single walled carbon nanotubes
1.3. Bet surface area analysis of nanoparticles
1.4. Measuring the specific surface area of nanoparticle suspensions using nmr
1.5. Dynamic light scattering
1.6. Determining the chemical formula of nonstoichiometric iron oxide nanoparticles by mossbauer spectroscopy
1.7. Xafs analysis for arsenic adsorption onto iron oxides
1.8. Nanoparticle deposition studies using a quartz crystal microbalance
3.2. Spectroscopy
2. Optical properties of group 12-16 (ii-vi) semiconductor nanoparticles
2.1. Band gap measurement
2.2. Band gap measurements of quantum dots
2.3. Using uv-vis for the detection and characterization of silicon quantum dots
2.4. Characterization of group 12-16 (ii-vi) semiconductor nanoparticles by uv-visible spectroscopy
2.5. Characterization of covalently functionalized single-walled carbon nanotubes
2.6. Characterization of single-walled carbon nanotubes by raman spectroscopy
2.7. Characterization of graphene by raman spectroscopy
2.8. Attenuated total reflectance-fourier transform infrared spectroscopy
2.9. Optical characterization of group 12-16 (ii-vi) semiconductor nanoparticles by fluorescence spectroscopy
2.10. Xps of carbon nanomaterials
2.11. Using xps to analyze metal nanoparticles
2.12. Mossbauer analysis of iron oxide nanoparticles
2.13. Using 13-c nmr to study carbon nanomaterials
3.3. Microscopy
3. Beyond optical microscopy
3.1. Tem imaging of carbon nanomaterials
3.2. Transmission electron microscopy image for multilayer-nanomaterials
3.3. Atomic force microscopy
3.4. Scanning tunneling microscopy of nanomaterials
3.5. Rolling molecules on surfaces under stm imaging
3.6. The application of vsi (vertical scanning interferometry) to the study of crystal surface processes
4. Fundamentals for nanotechnology
4. Magnetics
4.1. Brownian motion
4.2. Theory of a superconducting quantum interference device (squid)
4.3. Practical guide to using a superconducting quantum interference device