Nanočestica

Nanočestica je čestica veličine između 1 i 100 nanometara. U nanotehnologiji, čestica se navodi kao mali objekat koji se ponaša kao cjelina u odnosu na prijevoz i svojstva. Čestice se dalje svrstavaju i po promjeru.^[1] Ekstremno fine čestice su iste kao nanočestice između 1 i 100 nanometara veličine; fine čestice imaju veličinu od 100 do 2.500 nanometara, dok grube čestice pokrivaju veličinu od 2.500 do 10.000 nanometara.

Istraživanje nanočestica je trenutno poprište intenzivnog naučnog istraživanja kako bi ih se iskoristilo za široku potencijalnu uporabu na biomedicinskom, optičkom i elektroničkom polju.^[2]^[3]^[4] Nacionalna nanotehnologijska inicijativa je dovela do velikodušnih javnih fondova kako bi se financiralo istraživanje nanočestica u SAD-u.

Izvori uredi

↑ Module 3: Characteristics of Particles – Particle Size Categories. epa.gov
↑ Taylor, Robert; Coulombe, Sylvain; Otanicar, Todd; Phelan, Patrick; Gunawan, Andrey; Lv, Wei; Rosengarten, Gary; Prasher, Ravi i dr.. (2013). „Small particles, big impacts: A review of the diverse applications of nanofluids”. Journal of Applied Physics 113: 011301. Bibcode 2013JAP...113a1301T. DOI:10.1063/1.4754271.
↑ Hewakuruppu, Y. L.; Dombrovsky, L. A.; Chen, C.; Timchenko, V.; Jiang, X.; Baek, S.; Taylor, R. A. (2013). „Plasmonic "pump–probe" method to study semi-transparent nanofluids”. Applied Optics 52 (24): 6041–6050. DOI:10.1364/AO.52.006041. PMID 24085009.
↑ Taylor, Robert A.; Otanicar, Todd P.; Herukerrupu, Yasitha; Bremond, Fabienne; Rosengarten, Gary; Hawkes, Evatt R.; Jiang, Xuchuan; Coulombe, Sylvain (2013). „Feasibility of nanofluid-based optical filters”. Applied Optics 52 (7): 1413–22. DOI:10.1364/AO.52.001413. PMID 23458793.

Daljnje čitanje uredi

Jackie Y. Ying (2001). Nanostructured Materials. Academic Press. str. 5–. ISBN 978-0-12-744451-2.
Salata, OV (2004). „Applications of nanoparticles in biology and medicine”. Journal of Nanobiotechnology 2 (1): 3. DOI:10.1186/1477-3155-2-3. ISSN 14773155. PMC 419715. PMID 15119954.
Nanoparticles Used In Solar Energy Conversion (ScienceDaily).
Nanoparticles: An occupational hygiene review by RJ Aitken and others. Health and Safety Executive Research Report 274/2004
EMERGNANO: A review of completed and near completed environment, health and safety research on nanomaterials and nanotechnology Arhivirano 2011-07-26 na Wayback Machine-u by RJ Aitken and others.
High transmission Tandem DMA for nanoparticle studies by SEADM, 2014.

Eksterni linkovi uredi

Nanohedron.com Arhivirano 2007-10-29 na Wayback Machine-u fotografije nanočestica
Lectures on All Phases of Nanoparticle Science and Technology Arhivirano 2010-08-29 na Wayback Machine-u
ENPRA – Risk Assessment of Engineered NanoParticles EC FP7 Projekt

[1] Module 3: Characteristics of Particles – Particle Size Categories. epa.gov

[Taylor2-2] Taylor, Robert; Coulombe, Sylvain; Otanicar, Todd; Phelan, Patrick; Gunawan, Andrey; Lv, Wei; Rosengarten, Gary; Prasher, Ravi i dr.. (2013). „Small particles, big impacts: A review of the diverse applications of nanofluids”. Journal of Applied Physics 113: 011301. Bibcode 2013JAP...113a1301T. DOI:10.1063/1.4754271.

[r2-3] Hewakuruppu, Y. L.; Dombrovsky, L. A.; Chen, C.; Timchenko, V.; Jiang, X.; Baek, S.; Taylor, R. A. (2013). „Plasmonic "pump–probe" method to study semi-transparent nanofluids”. Applied Optics 52 (24): 6041–6050. DOI:10.1364/AO.52.006041. PMID 24085009.

[Taylor3-4] Taylor, Robert A.; Otanicar, Todd P.; Herukerrupu, Yasitha; Bremond, Fabienne; Rosengarten, Gary; Hawkes, Evatt R.; Jiang, Xuchuan; Coulombe, Sylvain (2013). „Feasibility of nanofluid-based optical filters”. Applied Optics 52 (7): 1413–22. DOI:10.1364/AO.52.001413. PMID 23458793.

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