Nuclear Radiation Nanosensors And Nanosensory Systems (nato Science For Peace And Security Series B: Physics And Biophysics)
by Paata J. Kervalishvili /
2016 / English / PDF
9.6 MB Download
This collection of selected review papers focuses on topics such
as digital radiation sensors and nanosensory systems for
nanotechnology applications and integrated X-ray/PET/CT
detectors; nanophosphors and nanocrystal quantum dots as X-ray
radiation sensors; the luminescence efficiency of CdSe/ZnS QD and
UV-induced luminescence efficiency distribution; investigations
devoted to the quantum and multi-parametrical nature of disasters
and the modeling thereof using quantum search and quantum query
algorithms; sum-frequency-generation, IR fourier and raman
spectroscopy methods; as well as investigations into the
vibrational modes of viruses and other pathogenic microorganisms
aimed at creating optical biosensory systems. This is followed by
a review of radiation resistant semiconductor sensors and
magnetic measurement instrumentation for magnetic diagnostics of
high-tech fission and fusion set-ups and accelerators; the
evaluation of the use of neutron-radiation, 10B-enriched
semiconducting materials as thin-film, highly reliable, highly
sensitive and fast-acting robust solid-state electronic
neutron-detectors; and the irradiation of n-Si crystals with
protons, which converts the “metallic” inclusions to “dielectric”
ones in isochronous annealing, therefore leading to
opto/micro/nanoelectronic devices, including nuclear radiation
nanosensors.
This collection of selected review papers focuses on topics such
as digital radiation sensors and nanosensory systems for
nanotechnology applications and integrated X-ray/PET/CT
detectors; nanophosphors and nanocrystal quantum dots as X-ray
radiation sensors; the luminescence efficiency of CdSe/ZnS QD and
UV-induced luminescence efficiency distribution; investigations
devoted to the quantum and multi-parametrical nature of disasters
and the modeling thereof using quantum search and quantum query
algorithms; sum-frequency-generation, IR fourier and raman
spectroscopy methods; as well as investigations into the
vibrational modes of viruses and other pathogenic microorganisms
aimed at creating optical biosensory systems. This is followed by
a review of radiation resistant semiconductor sensors and
magnetic measurement instrumentation for magnetic diagnostics of
high-tech fission and fusion set-ups and accelerators; the
evaluation of the use of neutron-radiation, 10B-enriched
semiconducting materials as thin-film, highly reliable, highly
sensitive and fast-acting robust solid-state electronic
neutron-detectors; and the irradiation of n-Si crystals with
protons, which converts the “metallic” inclusions to “dielectric”
ones in isochronous annealing, therefore leading to
opto/micro/nanoelectronic devices, including nuclear radiation
nanosensors.The book concludes with a comparative study of the nitride and
sulfide chemisorbed layers; a chemical model that describes the
formation of such layers in hydrazine-sulfide and water sodium
sulfide solution; and recent developments in the microwave-enhanced
processing and microwave-assisted synthesis of nanoparticles and
nanomaterials using Mn(OH)2.
The book concludes with a comparative study of the nitride and
sulfide chemisorbed layers; a chemical model that describes the
formation of such layers in hydrazine-sulfide and water sodium
sulfide solution; and recent developments in the microwave-enhanced
processing and microwave-assisted synthesis of nanoparticles and
nanomaterials using Mn(OH)2.
