Verfügbarkeit: Structure and properties of atomic nanoclusters

Structure and properties of atomic nanoclusters:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Alonso, Julio A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London [u.a.] Imperial College Press 2005
Schlagworte:	Microclusters Nanostructured materials Atomcluster Ionencluster Nanopartikel Fullerene
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 410 S. Ill., graph. Darst.
ISBN:	1860945511

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adam_text	STRUCTURE AND PRAPERTIES AF ATAMIC NANACLUSTERS JULIO A. ALONSO UNIVERSIDAD DE VAUADOLID, SPAIN IMPERIAL COLLEGE PRESS CONTENTS FOREWORD VN ACKNOWLEDGMENTS XV 1. INTRODUCTION TO CLUSTERS 1 1.1 THE FIELD OF CLUSTERS 1 1.2 TYPESOF CLUSTERS 3 1.2.1 VAN DER WAALS CLUSTERS 3 1.2.2 METAL CLUSTERS 4 1.2.3 CLUSTERS OF IONIC MATERIALS 5 1.2.4 NETWORK CLUSTERS , 6 1.2.5 CLUSTER ASSEMBLED SOLIDS 6 REFERENCES 6 2. EXPERIMENTAL PRODUCTION OF CLUSTERS 7 2.1 FORMATION OF CLUSTERS IN MATRICES 7 2.1.1 CHEMICAL REACTION IN A LIQUID MEDIUM 7 2.1.2 IRRADIATION OF A SOLID 8 2.1.3 IMMERSION OF A POROUS GLASS IN A LIQUID METAL 9 2.1.4 CONDENSATION ON A SUBSTRATE 9 2.2 LIQUID METAL ION SOURCE 10 * 2.3 ION BOMBARDMENT 10 2.4 SUPERSONIC NOZZLE SOURCES 10 2.4.1 KINETICS OF COAGULATION 12 2.4.2 SEEDED NOZZLE SOURCES 13 2.4.3 GAS AGGREGATION SOURCES 13 2.4.4 LASER VAPORIZATION 14 2.4.5 CLUSTERS IN HELIUM DROPLETS 14 2.5 MASS ANALYSIS 14 REFERENCES 1 IX STRUCTURE AND PROPERTIES OFATOMIC CLUSTERS VAN DER WAALS CLUSTERS 21 3.1 STRUCTURE OF VAN DER WAALS CLUSTERS 21 3.2 TRANSITION TO THE BULK 28 3.3 THERMAL PROPERTIES 31 3.3.1 SOLID TO SOLID TRANSITIONS 31 3.3.2 MELTING TRANSITION 33 3.3.3 MIXED INERT GAS CLUSTERS 42 3.3.4 LIQUID TO GAS PHASE TRANSITION IN HYDROGEN CLUSTERS ..43 3.4 ELECTRONIC EFFECTS 46 3.4.1 DELOCALIZED ELECTRONIC STATES OF EXCESS ELECTRONS 46 3.4.2 CORE LEVEL SPECTROSCOPY 50 3.5 CLUSTERS OF SF 6 AND C0 2 MOLECULES 52 3.6 INTERACTION WITH ULTRAFAST LASER PULSES 54 REFERENCES 56 ELECTRONIC AND ATOMIC SHELLS IN METAL CLUSTERS 59 4.1 EXPERIMENTAL OBSERVATION OF ELECTRONIC SHELLS 59 4.2 SPHERICAL WELL MODEL OF METALLIC CLUSTERS 62 4.3 ELECTRONIC SHELL EFFECTS IN LARGE CLUSTERS 69 4.4 SPHEROIDAL DEFORMATIONS OF THE CLUSTER SHAPE 74 4.5 A FUELL DESCRIPTION OF THE CLUSTER STRUCTURE 77 4.6 SHELLS OF ATOMS 83 4.7 APPROXIMATE TREATMENT OF THE GEOMETRICAL STRUCTURE 86 4.7.1 SPHERICALLY AVERAGED PSEUDOPOTENTIAL MODEL 86 4.7.2 CYLINDRICALLY AVERAGED PSEUDOPOTENTIAL (CAPS) MODEL 88 4.8 CLUSTERS OF THE ALUMINUM GROUP 89 4.8.1 ALUMINUM CLUSTERS 89 4.8.2 BORON CLUSTERS 91 REFERENCES 2 ELECTRONIC AND OPTICAL PROPERTIES OF SIMPLE METAL CLUSTERS ..97 5.1 LONIZATION POTENTIAL AND ELECTRON AFFINITY 97 5.2 ODD-EVEN EFFECTS 104 5.3 TEMPERATURE DEPENDENCE OF THE LONIZATION POTENTIAL ....108 5.4 HARDNESS AND REACTIVITY 11 5.5 MASS SPECTRUM OBTAINED AT NEAR-THRESHOLD LONIZATION ENERGIES H3 5.6 RESPONSE TO A STATIC ELECTRIC FIELD 116 CONTENTS 5.7 DYNAMICAL RESPONSE 120 5.7.1 RELATION BETWEEN THEORY AND EXPERIMENT 120 5.7.2 SUMRULES 124 5.7.3 CALCULATION OF THE DYNAMICAL SUSCEPTIBILITY 128 5.7.4 SPHERICAL CLUSTERS 130 5.7.5 EFFECT OF SHAPE DEFORMATIONS 135 5.7.6 EFFECT OF THE ION GRANULARITY 138 5.7.7 VIBRATIONAL STRUCTURE OF THE OPTICAL RESPONSE 143 5.7.8 THERMAL LINE BROADENING 145 REFERENCES 147 6. MELTING AND FRAGMENTATION OF METAL CLUSTERS 153 6.1 MELTING TRANSITION 153 6.1.1 EXPERIMENTS FORLARGE ALKALI CLUSTERS 153 6.1.2 CALORIMETRIC MEASUREMENTS OF MELTING OF MEDIUM SIZE CLUSTERS 156 6.2 COMPUTER SIMULATION OF MELTING 162 6.2.1 COMPUTER SIMULATIONS USING APPROXIMATE METHODS.162 6.2.2 AB INITIO SIMULATIONS 168 6.3 CLUSTERS WITH ABNORMALLY HIGH MELTING TEMPERATURE...L70 6.4 OPTICAL PROPERTIES AND MELTING 175 6.5 FRAGMENTATION OF MULTIPLY CHARGED CLUSTERS 176 6.5.1 SURFACE AND COULOMB FORCES 176 6.5.2 MODELS AND CALCULATIONS OF CLUSTER FISSION 179 6.6 OPTICAL RESPONSE ALONG THE FISSION PATH 191 6.7 FROM FISSION TO FRAGMENTATION TO COULOMB EXPLOSION .193 6.8 CALORIC CURVES OF FRAGMENTING CLUSTERS 198 REFERENCES 200 7. BIMETALLIC CLUSTERS 205 7.1 INTRODUCTION 205 7.2 ALLOYING EFFECTS IN ALKALI METAL CLUSTERS 205 7.3 COLLECTIVE ELECTRONIC EXCITATIONS 208 7.4 DIVALENT AND MONOVALENT IMPURITIES IN ALKALI METAL CLUSTERS 210 7.5 HIGHER VALENCE IMPURITIES 215 7.6 IMPURITIES IN ALUMINUM CLUSTERS 220 REFERENCES 225 STRUCTURE AND PROPERTIES OFATOMIC CLUSTERS CLUSTERS OF THE TRANSITION METALS 229 8.1 NOBLE METAL CLUSTERS 229 8.1.1 ELECTRONIC SHELL EFFECTS 229 8.1.2 INTERPLAY BETWEEN D AND S ELECTRONS 231 8.1.3 STRUCTURE 232 8.1.4 SPECIAL PROPERTIES OF GOLD CLUSTERS 234 8.1.5 OPTICAL PROPERTIES 236 8.2 GENERAL BONDING PROPERTIES IN CLUSTERS OF TRANSITION METALS 238 8.3 ELECTRONIC AND ATOMIC STRUCTURE 240 8.3.1 NICKEL CLUSTERS 241 8.3.2 IRON CLUSTERS 244 8.3.3 NIOBIUM CLUSTERS 245 8.3.4 TITANIUM AND VANADIUM CLUSTERS 248 8.3.5 CHROMIUM CLUSTERS 250 8.4 THERMIONIC EMISSION FROM REFRACTORY METAL CLUSTERS ..253 8.5 NONMETAL TO METAL TRANSITION 256 8.6 ATOMIC SHELL EFFECTS 259 8.6.1 REACTIVITY OF NI CLUSTERS 260 8.6.2 SHELL EFFECTS IN OTHER CLUSTERS 265 8.7 GOLD CLUSTERS WITH IMPURITIES 266 8.8 DOUBLY CHARGED CLUSTERS 268 REFERENCES 270 MAGNETISM 277 9.1 SOME BASIC CONCEPTS 277 9.2 SIZE DEPENDENCE OF THE MAGNETIC MOMENTS 279 9.3 MAGNETIC SHELL MODELS 282 9.4 TEMPERATURE DEPENDENCE OF THE MAGNETIC MOMENTS 287 9.5 MAGNETIC MOMENTS OF NICKEL CLUSTERS AND THEIR INTERPRETATION 289 9.5.1 TIGHT-BINDING STUDIES 289 9.5.2 INFLUENCE OF THE S ELECTRONS 298 9.6 DENSITY FUNCTIONAL STUDIES FOR NI, FE AND CR CLUSTERS ..299 9.6.1 NICKEL CLUSTERS 299 9.6.2 IRON AND AND CHROMIUM CLUSTERS 300 9.7 EXPERIMENTS AND CALCULATIONS FOR MN CLUSTERS 301 9.7.1 CLUSTERS WITH LESS THAN TEN ATOMS 301 9.7.2 CLUSTERS WITH MORE THAN TEN ATOMS 305 XM 9.8 MAGNETISM IN CLUSTERS OF THE 4D METALS 306 9.8.1 RHODIUM CLUSTERS 307 9.8.2 RUTHENIUM AND PALLADIUM CLUSTERS 309 9.9 EFFECT OF ADSORBEDMOLECULES 310 9.10 DETERMINATION OF MAGNETIC MOMENTS BY COMBINING THEORY AND PHOTODETACHMENT SPECTROSCOPY 312 9.11 NONCOLLINEAR MAGNETISM 314 REFERENCES 316 CLUSTERS OF IONIC MATERIALS 321 10.1 NEARLY STOICHIOMETRIC METAL HALIDE CLUSTERS 321 10.2 NONSTOICHIOMETRIC METAL HALIDE CLUSTERS 325 10.3 SMALL NEUTRAL CLUSTERS 326 10.4 STRUCTURAL TRANSITIONS 329 REFERENCES 332 CARBON CLUSTERS 333 11.1 CARBON FULLERENES 333 11.1.1 DISCOVERY OF THE FULLERENES 333 11.1.2 ELECTRONIC STRUCTURE OF C) 336 11.1.3 OTHER FULLERENES 338 11.2 FULLERENE COLLISIONS 340 11.2.1 COLLISIONS AT MEDIUM TO HIGH ENERGIES 341 11.2.2 COLLISIONS AT LOW TO MEDIUM ENERGIES 342 11.2.3 COLLISIONS WITH SURFACES 342 11.3 COATING OF FULLERENES 343 11.3.1 ALKALI METAL COVERAGE 343 11.3.2 COVERAGE BY OTHER METALS 345 11.4 OPTICAL PROPERTIES OF CARBON CLUSTERS 348 11.4.1 FULLERENES 348 11.4.2 MEDIUM SIZE CLUSTERS 350 11.4.3 COATED FULLERENES 352 11.4.4 MULTILAYERED FULLERENES 353 11.5 METALCARBOHEDRENES 355 11.5.1 STRUCTURE AND INFRARED VIBRATIONAL SPECTROSCOPY....355 11.5.2 OTHER PHYSICAL PROPERTIES OF METCARS 359 11.5.3 CHEMICAL REACTIVITY 360 XIV STRUCTURE AND PROPERTIES OFATOMIC CLUSTERS 11.6 OTHER METAL-CARBON CLUSTERS: FROM SMALL CLUSTERS TO NANOCRYSTALS 361 REFERENCES 364 12. ASSEMBLING OF NEW MATERIALS FROM CLUSTERS 369 12.1 GENERAL PRINCIPLES 369 12.2 CRY STALLINE INTERMETALLIC COMPOUNDS CONTAINING CLUSTERS 371 12.3 BORON CLUSTERS IN SOLIDS 376 12.4 ASSEMBLING OFCEOFULLERENES 378 12.4.1 (C 60 ) N CLUSTERS 378 12.4.2 FULLERENE SOLIDS 383 12.4.3 ALKALI-DOPED FULLERENE SOLIDS 385 12.4.4 MELTING IN ASSEMBLIES OF C^ CLUSTERS 387 12.5 SIMULATIONS OF THE ASSEMBLING OF DOPED ALUMINUM CLUSTERS TO FORM CLUSTERED MATERIALS 391 12.5.1 A1 ]2 X CLUSTERS WITH 40 VALENCE ELECTRONS 391 12.5.2 ASSEMBLING OF A1 13 H CLUSTERS 393 12.5.3 ASSEMBLING OF SUPERIONIC CLUSTER-SOLIDS 396 REFERENCES 397 .401
adam_txt	STRUCTURE AND PRAPERTIES AF ATAMIC NANACLUSTERS JULIO A. ALONSO UNIVERSIDAD DE VAUADOLID, SPAIN IMPERIAL COLLEGE PRESS CONTENTS FOREWORD VN ACKNOWLEDGMENTS XV 1. INTRODUCTION TO CLUSTERS 1 1.1 THE FIELD OF CLUSTERS 1 1.2 TYPESOF CLUSTERS 3 1.2.1 VAN DER WAALS CLUSTERS 3 1.2.2 METAL CLUSTERS 4 1.2.3 CLUSTERS OF IONIC MATERIALS 5 1.2.4 NETWORK CLUSTERS , 6 1.2.5 CLUSTER ASSEMBLED SOLIDS 6 REFERENCES 6 2. EXPERIMENTAL PRODUCTION OF CLUSTERS 7 2.1 FORMATION OF CLUSTERS IN MATRICES 7 2.1.1 CHEMICAL REACTION IN A LIQUID MEDIUM 7 2.1.2 IRRADIATION OF A SOLID 8 2.1.3 IMMERSION OF A POROUS GLASS IN A LIQUID METAL 9 2.1.4 CONDENSATION ON A SUBSTRATE 9 2.2 LIQUID METAL ION SOURCE 10 * 2.3 ION BOMBARDMENT 10 2.4 SUPERSONIC NOZZLE SOURCES 10 2.4.1 KINETICS OF COAGULATION 12 2.4.2 SEEDED NOZZLE SOURCES 13 2.4.3 GAS AGGREGATION SOURCES 13 2.4.4 LASER VAPORIZATION 14 2.4.5 CLUSTERS IN HELIUM DROPLETS 14 2.5 MASS ANALYSIS 14 REFERENCES 1 IX STRUCTURE AND PROPERTIES OFATOMIC CLUSTERS VAN DER WAALS CLUSTERS 21 3.1 STRUCTURE OF VAN DER WAALS CLUSTERS 21 3.2 TRANSITION TO THE BULK 28 3.3 THERMAL PROPERTIES 31 3.3.1 SOLID TO SOLID TRANSITIONS 31 3.3.2 MELTING TRANSITION 33 3.3.3 MIXED INERT GAS CLUSTERS 42 3.3.4 LIQUID TO GAS PHASE TRANSITION IN HYDROGEN CLUSTERS .43 3.4 ELECTRONIC EFFECTS 46 3.4.1 DELOCALIZED ELECTRONIC STATES OF EXCESS ELECTRONS 46 3.4.2 CORE LEVEL SPECTROSCOPY 50 3.5 CLUSTERS OF SF 6 AND C0 2 MOLECULES 52 3.6 INTERACTION WITH ULTRAFAST LASER PULSES 54 REFERENCES 56 ELECTRONIC AND ATOMIC SHELLS IN METAL CLUSTERS 59 4.1 EXPERIMENTAL OBSERVATION OF ELECTRONIC SHELLS 59 4.2 SPHERICAL WELL MODEL OF METALLIC CLUSTERS 62 4.3 ELECTRONIC SHELL EFFECTS IN LARGE CLUSTERS 69 4.4 SPHEROIDAL DEFORMATIONS OF THE CLUSTER SHAPE 74 4.5 A FUELL DESCRIPTION OF THE CLUSTER STRUCTURE 77 4.6 SHELLS OF ATOMS 83 4.7 APPROXIMATE TREATMENT OF THE GEOMETRICAL STRUCTURE 86 4.7.1 SPHERICALLY AVERAGED PSEUDOPOTENTIAL MODEL 86 4.7.2 CYLINDRICALLY AVERAGED PSEUDOPOTENTIAL (CAPS) MODEL 88 4.8 CLUSTERS OF THE ALUMINUM GROUP 89 4.8.1 ALUMINUM CLUSTERS 89 4.8.2 BORON CLUSTERS 91 REFERENCES "2 ELECTRONIC AND OPTICAL PROPERTIES OF SIMPLE METAL CLUSTERS .97 5.1 LONIZATION POTENTIAL AND ELECTRON AFFINITY 97 5.2 ODD-EVEN EFFECTS 104 5.3 TEMPERATURE DEPENDENCE OF THE LONIZATION POTENTIAL .108 5.4 HARDNESS AND REACTIVITY 11 5.5 MASS SPECTRUM OBTAINED AT NEAR-THRESHOLD LONIZATION ENERGIES H3 5.6 RESPONSE TO A STATIC ELECTRIC FIELD 116 CONTENTS 5.7 DYNAMICAL RESPONSE 120 5.7.1 RELATION BETWEEN THEORY AND EXPERIMENT 120 5.7.2 SUMRULES 124 5.7.3 CALCULATION OF THE DYNAMICAL SUSCEPTIBILITY 128 5.7.4 SPHERICAL CLUSTERS 130 5.7.5 EFFECT OF SHAPE DEFORMATIONS 135 5.7.6 EFFECT OF THE ION GRANULARITY 138 5.7.7 VIBRATIONAL STRUCTURE OF THE OPTICAL RESPONSE 143 5.7.8 THERMAL LINE BROADENING 145 REFERENCES 147 6. MELTING AND FRAGMENTATION OF METAL CLUSTERS 153 6.1 MELTING TRANSITION 153 6.1.1 EXPERIMENTS FORLARGE ALKALI CLUSTERS 153 6.1.2 CALORIMETRIC MEASUREMENTS OF MELTING OF MEDIUM SIZE CLUSTERS 156 6.2 COMPUTER SIMULATION OF MELTING 162 6.2.1 COMPUTER SIMULATIONS USING APPROXIMATE METHODS.162 6.2.2 AB INITIO SIMULATIONS 168 6.3 CLUSTERS WITH ABNORMALLY HIGH MELTING TEMPERATURE.L70 6.4 OPTICAL PROPERTIES AND MELTING 175 6.5 FRAGMENTATION OF MULTIPLY CHARGED CLUSTERS 176 6.5.1 SURFACE AND COULOMB FORCES 176 6.5.2 MODELS AND CALCULATIONS OF CLUSTER FISSION 179 6.6 OPTICAL RESPONSE ALONG THE FISSION PATH 191 6.7 FROM FISSION TO FRAGMENTATION TO COULOMB EXPLOSION .193 6.8 CALORIC CURVES OF FRAGMENTING CLUSTERS 198 REFERENCES 200 7. BIMETALLIC CLUSTERS 205 7.1 INTRODUCTION 205 7.2 ALLOYING EFFECTS IN ALKALI METAL CLUSTERS 205 7.3 COLLECTIVE ELECTRONIC EXCITATIONS 208 7.4 DIVALENT AND MONOVALENT IMPURITIES IN ALKALI METAL CLUSTERS 210 7.5 HIGHER VALENCE IMPURITIES 215 7.6 IMPURITIES IN ALUMINUM CLUSTERS 220 REFERENCES 225 STRUCTURE AND PROPERTIES OFATOMIC CLUSTERS CLUSTERS OF THE TRANSITION METALS 229 8.1 NOBLE METAL CLUSTERS 229 8.1.1 ELECTRONIC SHELL EFFECTS 229 8.1.2 INTERPLAY BETWEEN D AND S ELECTRONS 231 8.1.3 STRUCTURE 232 8.1.4 SPECIAL PROPERTIES OF GOLD CLUSTERS 234 8.1.5 OPTICAL PROPERTIES 236 8.2 GENERAL BONDING PROPERTIES IN CLUSTERS OF TRANSITION METALS 238 8.3 ELECTRONIC AND ATOMIC STRUCTURE 240 8.3.1 NICKEL CLUSTERS 241 8.3.2 IRON CLUSTERS 244 8.3.3 NIOBIUM CLUSTERS 245 8.3.4 TITANIUM AND VANADIUM CLUSTERS 248 8.3.5 CHROMIUM CLUSTERS 250 8.4 THERMIONIC EMISSION FROM REFRACTORY METAL CLUSTERS .253 8.5 NONMETAL TO METAL TRANSITION 256 8.6 ATOMIC SHELL EFFECTS 259 8.6.1 REACTIVITY OF NI CLUSTERS 260 8.6.2 SHELL EFFECTS IN OTHER CLUSTERS 265 8.7 GOLD CLUSTERS WITH IMPURITIES 266 8.8 DOUBLY CHARGED CLUSTERS 268 REFERENCES 270 MAGNETISM 277 9.1 SOME BASIC CONCEPTS 277 9.2 SIZE DEPENDENCE OF THE MAGNETIC MOMENTS 279 9.3 MAGNETIC SHELL MODELS 282 9.4 TEMPERATURE DEPENDENCE OF THE MAGNETIC MOMENTS 287 9.5 MAGNETIC MOMENTS OF NICKEL CLUSTERS AND THEIR INTERPRETATION 289 9.5.1 TIGHT-BINDING STUDIES 289 9.5.2 INFLUENCE OF THE S ELECTRONS 298 9.6 DENSITY FUNCTIONAL STUDIES FOR NI, FE AND CR CLUSTERS .299 9.6.1 NICKEL CLUSTERS 299 9.6.2 IRON AND AND CHROMIUM CLUSTERS 300 9.7 EXPERIMENTS AND CALCULATIONS FOR MN CLUSTERS 301 9.7.1 CLUSTERS WITH LESS THAN TEN ATOMS 301 9.7.2 CLUSTERS WITH MORE THAN TEN ATOMS 305 XM 9.8 MAGNETISM IN CLUSTERS OF THE 4D METALS 306 9.8.1 RHODIUM CLUSTERS 307 9.8.2 RUTHENIUM AND PALLADIUM CLUSTERS 309 9.9 EFFECT OF ADSORBEDMOLECULES 310 9.10 DETERMINATION OF MAGNETIC MOMENTS BY COMBINING THEORY AND PHOTODETACHMENT SPECTROSCOPY 312 9.11 NONCOLLINEAR MAGNETISM 314 REFERENCES 316 CLUSTERS OF IONIC MATERIALS 321 10.1 NEARLY STOICHIOMETRIC METAL HALIDE CLUSTERS 321 10.2 NONSTOICHIOMETRIC METAL HALIDE CLUSTERS 325 10.3 SMALL NEUTRAL CLUSTERS 326 10.4 STRUCTURAL TRANSITIONS 329 REFERENCES 332 CARBON CLUSTERS 333 11.1 CARBON FULLERENES 333 11.1.1 DISCOVERY OF THE FULLERENES 333 11.1.2 ELECTRONIC STRUCTURE OF C) 336 11.1.3 OTHER FULLERENES 338 11.2 FULLERENE COLLISIONS 340 11.2.1 COLLISIONS AT MEDIUM TO HIGH ENERGIES 341 11.2.2 COLLISIONS AT LOW TO MEDIUM ENERGIES 342 11.2.3 COLLISIONS WITH SURFACES 342 11.3 COATING OF FULLERENES 343 11.3.1 ALKALI METAL COVERAGE 343 11.3.2 COVERAGE BY OTHER METALS 345 11.4 OPTICAL PROPERTIES OF CARBON CLUSTERS 348 11.4.1 FULLERENES 348 11.4.2 MEDIUM SIZE CLUSTERS 350 11.4.3 COATED FULLERENES 352 11.4.4 MULTILAYERED FULLERENES 353 11.5 METALCARBOHEDRENES 355 11.5.1 STRUCTURE AND INFRARED VIBRATIONAL SPECTROSCOPY.355 11.5.2 OTHER PHYSICAL PROPERTIES OF METCARS 359 11.5.3 CHEMICAL REACTIVITY 360 XIV STRUCTURE AND PROPERTIES OFATOMIC CLUSTERS 11.6 OTHER METAL-CARBON CLUSTERS: FROM SMALL CLUSTERS TO NANOCRYSTALS 361 REFERENCES 364 12. ASSEMBLING OF NEW MATERIALS FROM CLUSTERS 369 12.1 GENERAL PRINCIPLES 369 12.2 CRY STALLINE INTERMETALLIC COMPOUNDS CONTAINING CLUSTERS 371 12.3 BORON CLUSTERS IN SOLIDS 376 12.4 ASSEMBLING OFCEOFULLERENES 378 12.4.1 (C 60 ) N CLUSTERS 378 12.4.2 FULLERENE SOLIDS 383 12.4.3 ALKALI-DOPED FULLERENE SOLIDS 385 12.4.4 MELTING IN ASSEMBLIES OF C^ CLUSTERS 387 12.5 SIMULATIONS OF THE ASSEMBLING OF DOPED ALUMINUM CLUSTERS TO FORM CLUSTERED MATERIALS 391 12.5.1 A1 ]2 X CLUSTERS WITH 40 VALENCE ELECTRONS 391 12.5.2 ASSEMBLING OF A1 13 H CLUSTERS 393 12.5.3 ASSEMBLING OF SUPERIONIC CLUSTER-SOLIDS 396 REFERENCES 397 .401
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id	DE-604.BV021711990
illustrated	Illustrated
index_date	2024-07-02T15:20:43Z
indexdate	2024-07-09T20:42:16Z
institution	BVB
isbn	1860945511
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-014925786
oclc_num	65404185
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owner_facet	DE-19 DE-BY-UBM DE-91G DE-BY-TUM DE-703 DE-20 DE-11
physical	XV, 410 S. Ill., graph. Darst.
publishDate	2005
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publisher	Imperial College Press
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spelling	Alonso, Julio A. Verfasser aut Structure and properties of atomic nanoclusters Julio A. Alonso London [u.a.] Imperial College Press 2005 XV, 410 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Microclusters Nanostructured materials Atomcluster (DE-588)4631207-9 gnd rswk-swf Ionencluster (DE-588)4362381-5 gnd rswk-swf Nanopartikel (DE-588)4333369-2 gnd rswk-swf Fullerene (DE-588)4305238-1 gnd rswk-swf Atomcluster (DE-588)4631207-9 s Nanopartikel (DE-588)4333369-2 s DE-604 Ionencluster (DE-588)4362381-5 s Fullerene (DE-588)4305238-1 s GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014925786&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Alonso, Julio A. Structure and properties of atomic nanoclusters Microclusters Nanostructured materials Atomcluster (DE-588)4631207-9 gnd Ionencluster (DE-588)4362381-5 gnd Nanopartikel (DE-588)4333369-2 gnd Fullerene (DE-588)4305238-1 gnd
subject_GND	(DE-588)4631207-9 (DE-588)4362381-5 (DE-588)4333369-2 (DE-588)4305238-1
title	Structure and properties of atomic nanoclusters
title_auth	Structure and properties of atomic nanoclusters
title_exact_search	Structure and properties of atomic nanoclusters
title_exact_search_txtP	Structure and properties of atomic nanoclusters
title_full	Structure and properties of atomic nanoclusters Julio A. Alonso
title_fullStr	Structure and properties of atomic nanoclusters Julio A. Alonso
title_full_unstemmed	Structure and properties of atomic nanoclusters Julio A. Alonso
title_short	Structure and properties of atomic nanoclusters
title_sort	structure and properties of atomic nanoclusters
topic	Microclusters Nanostructured materials Atomcluster (DE-588)4631207-9 gnd Ionencluster (DE-588)4362381-5 gnd Nanopartikel (DE-588)4333369-2 gnd Fullerene (DE-588)4305238-1 gnd
topic_facet	Microclusters Nanostructured materials Atomcluster Ionencluster Nanopartikel Fullerene
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014925786&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT alonsojulioa structureandpropertiesofatomicnanoclusters

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