By Prabhakar Misra
This e-book makes a speciality of numerous components of extreme topical curiosity concerning utilized spectroscopy and the technological know-how of nanomaterials. The 11 chapters within the publication disguise the next components of curiosity in terms of utilized spectroscopy and nanoscience:
· Raman spectroscopic characterization, modeling and simulation reviews of carbon nanotubes,
· Characterization of plasma discharges utilizing laser optogalvanic spectroscopy,
· Fluorescence anisotropy in knowing protein conformational ailment and aggregation,
· Nuclear magnetic resonance spectroscopy in nanomedicine,
· Calculation of Van der Waals interactions on the nanoscale,
· concept and simulation linked to adsorption of gases in nanomaterials,
· Atom-precise steel nanoclusters,
· Plasmonic homes of metal nanostructures, two-dimensional fabrics, and their composites,
· functions of graphene in optoelectronic units and transistors,
· function of graphene in natural photovoltaic equipment technology,
· functions of nanomaterials in nanomedicine.
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Additional info for Applied Spectroscopy and the Science of Nanomaterials
1021/jp105291u 5. 7 nm transitions from the analyses of the time-dependent optogalvanic signals. J At Mol Sci 1, 2:118–125. 071209a Laser Optogalvanic Spectroscopy and Collisional State … 39 6. Chen L, Zhang M, Wei W (2013) Graphene-based composites as cathode materials for lithium ion batteries. J Nanomaterials 2013(2013), Article ID 940389. 1155/2013/940389 7. Yang J et al (2013) LiFePO4–graphene as a superior cathode material for rechargeable lithium batteries: impact of stacked graphene and unfolded graphene.
OPAP 2013 proceedings 17. O’Connell MJ, Sivaram S, Doorn SK (2004) Near-infrared resonance Raman excitation proﬁle studies of single-walled carbon nanotube intertube interactions: a direct comparison of bundled and individually dispersed HiPco nanotubes. Phys Rev B 69:235415 18. Thermo scientiﬁc characterizing carbon with Raman. pdf. Accessed 14 Jun 2014 19. Dresselhaus MS, Eklund PC (2000) Phonons in carbon nanotubes. Adv Phys 49(6):705–814 20. Gregan E (2009) The use of raman spectroscopy in the characterization of single walled carbon nanotubes.
Mukhopadhyay perpendicular) are acquired using a polarized and pulsed excitation source [16–19]. The fluorescence anisotropy decay monitors the depolarization events that occur during the lifetime of the excited state of a fluorophore. The time-resolved anisotropy measurements enable one to distinguish between the local and the global dynamics of a fluorophore present in the system under investigation. Typically, the time-resolved decay of fluorescence anisotropy can be expressed as sum of exponentials as follows: r ðtÞ ¼ r0 ½a1 expðÀt=/fast Þ þ a2 expðÀt=/slow Þ ð2Þ where r0 is the intrinsic fluorescence anisotropy, /fast and /slow are fast and slow rotational correlation times, respectively and α1 and α2 are amplitudes associated with fast and slow rotational times, respectively.