00846nam a2200241 a 4500991001771349707536 8508080913b12194748-39ule_instDip.to Lingue itaBorba, Francisco S.451686Dicionario de usos do portugues do Brasil1 ed.San Paolo :Atica,c20021674 p. ;28 cm.PortogheseLingua portoghese (Brasile)Dizionari.b1219474821-09-0612-09-03991001771349707536LE012 REF 469.3 BOR12012000039100le012-E0.00-no 00000.i1256433312-09-03Dicionario de usos do portugues do Brasil157020UNISALENTOle012 - - ma -porbl 0103298 am 22006493u 450 991013136530332120230125212017.090-04-23069-610.1163/9789004230699(CKB)3710000000438422(SSID)ssj0001615886(PQKBManifestationID)16341275(PQKBTitleCode)TC0001615886(PQKBWorkID)12411038(PQKB)10470958(OCoLC)904036496(nllekb)BRILL9789004230699(oapen)https://directory.doabooks.org/handle/20.500.12854/36049(EXLCZ)99371000000043842220150423d2015 uy 0engurbn#---uuuuatxtrdacontentcdamediacrrdacarrierTime distortions in mind temporal processing in clinical populations /edited by A. Vatakis, M.J. AllmanBrill2015Leiden, Netherlands ;Boston, MA :Brill,[2015].©20151 online resource (xxi, 384 pages)Print version: 9789004230644 Includes bibliographical references and index.Time Distortions in Mind brings together current research on aspects of temporal processing in clinical populations, in the ultimate hope of elucidating the interdependence between perturbations in timing and disturbances in the mind and brain. Such research may inform not only typical psychological functioning, but may also elucidate the psychological consequences of any pathophysiological differences in temporal processing. This collection of current knowledge on temporal processing in clinical populations is an excellent reference for the student and scientist interested in the topic, but it also serves as the stepping-stone to share ideas and push forward the advancement in understanding how distorted timing can lead to a disturbed brain and mind or vice versa. Contributors to this volume: Ryan D. Ward, Billur Avlar, Peter D Balsam, Deana B. Davalos, Jamie Opper, Yvonne Delevoye-Turrell, Hélène Wilquin, Mariama Dione, Anne Giersch, Laurence Lalanne, Mitsouko van Assche, Patrick E. Poncelet, Mark A. Elliott, Deborah L. Harrington, Stephen M. Rao, Catherine R.G. Jones, Marjan Jahanshahi, Bon-Mi Gu, Anita J. Jurkowski, Jessica I. Lake, Chara Malapani, Warren H. Meck, Rebecca M. C. Spencer, Dawn Wimpory, Brad Nicholas, Elzbieta Szelag, Aneta Szymaszek, Anna Oron, Melissa J. Allman, Christine M. Falter, Argiro Vatakis, Alexandra Elissavet BakouTime perceptionCognitive psychologyBrainTemporal processingpsychologyAutismCerebellumCircadian rhythmSchizophreniaStriatumTime perceptionTime perception.Cognitive psychology.Brain153.753Vatakis Aauth1371789Vatakis ArgiroAllman Melissa J.NL-LeKBNL-LeKBUkMaJRUBOOK9910131365303321Time distortions in mind3401403UNINA05789nam 2200853Ia 450 991101948320332120241009125323.097866109216529781280921650128092165X9783527610884352761088X97835276108913527610898(CKB)1000000000376145(EBL)482215(OCoLC)173766893(SSID)ssj0000221199(PQKBManifestationID)11192015(PQKBTitleCode)TC0000221199(PQKBWorkID)10161862(PQKB)11609717(MiAaPQ)EBC482215(Perlego)2765825(EXLCZ)99100000000037614520030210d2003 uy 0engur|n|---|||||txtccrPhotochemical purification of water and air /Thomas OppenlanderWeinheim Wiley-VCHc20031 online resource (386 p.)Description based upon print version of record.9783527305636 3527305637 Includes bibliographical references and index.Photochemical Purification of Water and Air; Foreword; Curriculum vitae; Preface; Contents; Abbreviations and Symbols; Introduction; 1 AOPs and AOTs; 2 Why UV and Oxidation/Disinfection?; 2.1 Global Water Resources and Resulting Water Market; 2.2 Present and Historical Dimensions of the Radiation Concept; 2.3 Some Historical Landmarks of the Development of AOTs; References; 3 Interaction of UV/VIS Radiation with Matter; 3.1 Photoscience in Research and Development; 3.2 Physical Constants and Standard Values Used in Photochemistry; 3.3 The Electromagnetic Wave3.4 The Photon Stream and Planck's Equation3.5 Electromagnetic Spectral Ranges of Interest in Photochemistry; 3.6 Conversion of Energy Units and Other Useful Conversions; 3.7 Photon Energies, Bond Dissociation Energies, Threshold Wavelengths and Absorption Onset of Molecules; 3.8 Absorption of UV Radiation by Molecules; 3.9 The Beer-Lambert Relationship; 3.10 The Nature of Electronically Excited States; 3.11 The Jablonski Diagram; 3.12 Absorption of UV/VIS Radiation by Solids3.13 UV/VIS Radiation as a Specific Reagent: Quantum Yield, Quantum Efficiency, Actinometry and Photoreaction Kinetics3.14 Terms Associated with the Emission and Receipt of Electromagnetic Radiation; 3.15 Safety Precautions for Radiant Sources; References; 4 VUV and UV Radiant Sources and their Characteristics; 4.1 Types of Lamps used in AOP Research and Development; 4.2 Specific Properties of Mercury Arc Lamps; 4.3 Development of Incoherent Excimer Lamps; 4.4 Typical Photon Flow of VUV or UV Lamps; 4.5 The Sun as Radiation Source; References; 5 Photochemical Processes of Water Treatment5.1 Description of Aqueous Systems5.1.1 Classification of Water Constituents; 5.1.2 Analytical Parameters of Water Quality; 5.1.3 Synopsis: Water and Wastewater Treatment Technologies; 5.1.4 Synopsis: Oxidative Water Treatment Technologies and Methods of Hydroxyl Radical Production; 5.2 Nomenclature of Photochemical AOPs; 5.2.1 Photooxidation Reactions; 5.2.2 Photocatalytic Reactions; 5.3 General Reaction Schemes; 5.3.1 Photo-Initiated Oxidations; 5.3.2 Heterogeneous Photocatalysis; 5.3.3 Homogeneous Photocatalysis; 5.3.4 Photolysis of Water5.4 Status of Technical Realization of Photo-initiated AOPs and Photochemical Treatment Strategies5.5 Photodegradation of Water Pollutants; References; 6 Properties, Reactivity and Photochemistry of Auxiliary Chemicals; 6.1 Electronic Structures of Oxygen Species Involved; 6.2 Reduction Potentials; 6.3 UV Absorption Properties of Auxiliary Oxidants, Catalysts and of Reactive Intermediates; 6.4 Physical-chemical Properties of Ozone and Hydrogen Peroxide; 6.4.1 Ozone; 6.4.2 Hydrogen Peroxide; 6.4.3 Photochemistry of Hydrogen Peroxide; 6.5 Photocatalysts; 6.6 Quantum Yields6.7 Primary and Secondary Reactive SpeciesWhile the treatment of water and exhaust gas using ultraviolet (UV) light offers both ecological and economic advantages, information on photo-initiated advanced oxidation technologies (AOTs) has been dispersed among various journals and proceedings until now. This authoritative and comprehensive handbook is the first to cover both the photochemical fundamentals and practical applications, including a description of advanced oxidation processes (AOPs) and process engineering of suitable photoreactors. The author presents various real-world examples, including economic aspects, while many referAirPurificationPhotocatalysisPhotochemistryWaterPurificationOxidationWaterPurificationPhotocatalysisPurificació de l'airethubFotocatàlisithubFotoquímicathubDepuració de l'aiguathubOxidacióthubLlibres electrònicsthubAirPurificationPhotocatalysis.Photochemistry.WaterPurificationOxidation.WaterPurificationPhotocatalysis.Purificació de l'aireFotocatàlisiFotoquímicaDepuració de l'aiguaOxidació541.393628.1662Oppenlander Thomas44093MiAaPQMiAaPQMiAaPQBOOK9911019483203321Photochemical purification of water and air4419522UNINA