01385nam a2200301 i 4500991003931469707536081003s2008 riua b 100 0 eng d97808218414710821841475b13773318-39ule_instDip.to Matematicaeng516.3522AMS 53D55LC QA564.N665Non-commutative geometry in mathematics and physics :the XI Solomon Lefschetz memorial lecture series and topics in deformation quantization and non-commutative structures, September 7-9, 2005, Mexico City, Mexico /Giuseppe Dito ... [et al.], editorsProvidence, R. I. :American Mathematical Society,c2008viii, 143 p. :ill. ;26 cmContemporary mathematics,0271-4132 ;462Includes bibliographical referencesGeometry, AlgebraicCongressesNoncommutative ringsCongressesDito, Giuseppeauthorhttp://id.loc.gov/vocabulary/relators/aut313340.b1377331828-01-1403-10-08991003931469707536LE013 53D DIT11 (2008)12013000150130le013pE33.27-l- 00000.i1485650515-10-08Non-commutative geometry in mathematics and physics1464754UNISALENTOle01303-10-08ma -engriu0005278nam 22007935 450 991074322020332120251113173644.0981-16-7797-2981-16-7798-0981-16-7798-010.1007/978-981-16-7798-4(MiAaPQ)EBC6882560(Au-PeEL)EBL6882560(CKB)21069308900041(PPN)260831751(OCoLC)1295700303(DE-He213)978-981-16-7798-4(EXLCZ)992106930890004120220205d2022 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierHigh-Energy Chemistry and Processing in Liquids /edited by Yoshie Ishikawa, Takahiro Nakamura, Morihisa Saeki, Tadatake Sato, Teruki Sugiyama, Hiroyuki Wada, Tomoyuki Yatsuhashi1st ed. 2022.Singapore :Springer Nature Singapore :Imprint: Springer,2022.1 online resource (353 pages)Chemistry and Materials Science SeriesPrint version: Ishikawa, Yoshie High-Energy Chemistry and Processing in Liquids Singapore : Springer Singapore Pte. Limited,c2022 9789811677977 Includes bibliographical references.Part I: High-energy chemistry and processing of metals -- 1. Laser-induced bubble generation on excitation of gold nanoparticles -- 2. Metal and alloy nanoparticles formed by laser-induced nucleation method -- 3. Laser-induced reduction and particle formation of precious metal ions in a solution: Application to metal recovery -- 4. Synthesis of metal nano-particles induced by plasma-assisted electrolysis -- 5. Controllable surface modification of colloidal nanoparticles using laser ablation in liquids and its utilization -- Part II: High-energy processing of nonmetals -- 6. Fabrication and control of semiconductor random lasers using laser processing techniques -- 7. Formation mechanism of spherical submicrometer particles by pulsed laser melting in liquid -- 8. Mass production of spherical submicrometer particles by flow-style pulsed laser melting in liquid -- 9. Material processing for colloidal silicon quantum dot formation -- 10. Processing of transparent materials using laser-induced high-energy state in liquid -- 11. Functional nanomaterial and nanostructure synthesized by femtosecond laser pulses -- 12. Preparation of functional nanoparticles by laser process in liquid and their optical applications -- Part III: High-energy chemistry of nonmetals -- 13. Nanoscale transient laser heating and the related chemical process of organic solid -- 14. Fundamentals and applications of novel high-energy reaction fields by microwave chemistry -- 15. Study on the preparation and photocatalytic activity of the laser modified photocatalysis -- 16. Control of crystallization by intense focused laser beam -- 17. Electrocatalysts developed from ion-implanted carbon materials -- 18. Carbon nanoparticle production in plasma filaments generated by intense femtosecond laser pulses.This book focuses on chemical reactions and processing under extreme conditions—how materials react with highly concentrated active species and/or in a very confined high-temperature and high-pressure volume. Those ultimate reaction environments created by a focused laser beam, discharges, ion bombardments, or microwaves provide characteristic nano- and submicron-sized products and functional nanostructures. The book explores the chemistry and processing of metals and non-metals as well as molecules that are strongly dependent on the energy deposition processes and character of the materials. Descriptions of a wide range of topics are given from the perspective of a variety of research methodologies, material preparations, and applications. The reader is led to consider and review how a high-energy source interacts with materials, and what the key factors are that determine the quality and quantity of nanoproducts and nano-processing.Chemistry and Materials Science SeriesChemistryNanoparticlesReaction mechanisms (Chemistry)NanochemistryLaser plasmasChemical reactionsMicrowavesNanoparticle SynthesisNanoparticlesReaction MechanismsNanochemistryLaser-produced PlasmaMicrowave ChemistryChemistry.Nanoparticles.Reaction mechanisms (Chemistry)Nanochemistry.Laser plasmas.Chemical reactions.Microwaves.Nanoparticle Synthesis.Nanoparticles.Reaction Mechanisms.Nanochemistry.Laser-produced Plasma.Microwave Chemistry.541.3Ishikawa YoshieMiAaPQMiAaPQMiAaPQBOOK9910743220203321High-Energy Chemistry and Processing in Liquids2762733UNINA