Verfügbarkeit: Semiconductor surfaces and interfaces

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Titel:	Semiconductor surfaces and interfaces
Von:	Winfried Mönch
Person:	Mönch, Winfried Verfasser aut
Hauptverfasser:	Mönch, Winfried (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Berlin [u.a.] Springer 2001
Ausgabe:	3., rev. ed.
Schriftenreihe:	Springer series in surface sciences 26
Schlagworte:	Semiconductors > Junctions Semiconductors > Surfaces Surface chemistry Oberfläche Oberflächenchemie Halbleiteroberfläche Halbleitergrenzfläche Halbleiter Grenzschicht
Online-Zugang:	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009079722&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009079722&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
Beschreibung:	XVI, 548 S. Ill., graph. Darst.
ISBN:	3540679022

Internformat

MARC


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Datensatz im Suchindex

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adam_text	Contents 1. Introduction 1 1.1 Historical Remarks 1 1.2 Surface Space-Charge and Surface States: Some Preliminary Remarks 13 2. Surface Space-Charge Region in Thermal Equilibrium .... 21 2.1 Solutions of Poisson s Equation 21 2.2 Surface Space-Charge 25 2.3 Shape of Surface Barriers 27 2.4 Comparison of Space-Charge Layers at Semiconductor and Metal Surfaces 28 2.5 Quantum Size-Effects in Space-Charge Layers 28 3. Surface States 33 3.1 Virtual Gap States of the Complex Band Structure 33 3.2 Intrinsic Surface States: Nearly Free Electron Model 36 3.3 Intrinsic Surface States: Tight-Binding Approximation 44 3.4 Dangling Bonds 47 3.5 Adatom-Induced Surface States: Tight-Binding Approach.... 51 3.6 Adatom-Induced Surface Dipoles: Electronegativity Concept . 53 3.7 Adatom-Induced Surface States and Dipoles: ViGS Model ... 56 4. Occupation of Surface States and Surface Band-Bending in Thermal Equilibrium 59 5. Surface Space-Charge Region in Non-Equilibrium 67 5.1 Surface Photovoltage 67 5.2 Dember Effect 73 5.3 Surface Transport 74 5.3.1 Surface Excess of Carriers 74 5.3.2 Surface Conductance 76 5.3.3 Surface Mobility 76 5.3.4 Field Effect of Surface Conductance 78 XII Contents 6. Interface States 81 6.1 Metal-Semiconductor Contacts: Metal-Induced Gap States .. 81 6.2 MIGS-and-Electronegativity Model of Metal-Semiconductor Contacts 86 6.3 Slope Parameters of Barrier Heights in Schottky Contacts ... 91 6.4 Defects at Metal-Semiconductor Interfaces 93 6.5 Band Lineup in Semiconductor Heterostructures: IFIGS-and-Electronegativity Model 96 6.6 Band Lineup at Semiconductor Heterostructures: Tight-Binding Approach 98 6.7 Historical Notes 100 7. Cleaved {110} Surfaces of III-V and II-VI Compound Semiconductors 105 7.1 Ionicity and Core-Level Spectroscopy of Compound Semiconductors 105 7.1.1 Layer Model of Photoemitted Electrons 105 7.1.2 Charge Transfer in the Bulk of Compound Semiconductors 109 7.2 Surface Core-Level Shifts 112 7.3 Geometrical Surface Structure 114 7.4 Surface Phonons 122 7.5 Electronic Surface States 128 7.5.1 Intrinsic Versus Extrinsic Surface States 128 7.5.2 Cleavage-Induced Surface States: InAs(llO) as an Example 131 7.5.3 Intrinsic Surface States 133 7.6 Temperature Dependence of the Ionization Energy 137 7.7 Chemical Trends of the Ionization Energy 140 8. {100} Surfaces of III-V, II-VI, and I-VII Compound Semiconductors with Zincblende Structure 145 8.1 Reconstructions and Trends in Chemical Compositions 145 8.2 Dimerization 150 8.3 Missing Dimer Structures 153 8.4 Dimerization, Occupation of Dangling Bonds, and Electron Counting 161 8.5 Intrinsic Surface Band Structure 166 8.6 Fermi-Level Pinning by Extrinsic Surface States 167 8.7 Ionization Energy 168 9. {100} Surfaces of Diamond, Silicon, Germanium, and Cubic Silicon Carbide 169 9.1 Atomic Arrangement 169 Contents XIII 9.2 Strain Effects on Si(OOl) Surfaces 175 9.3 Electronic Surface Properties 177 9.4 Surface Core-Level Shifts 181 9.5 Reversible 2x1^ c(4 x 2) Surface Phase Transition 183 9.6 /3-SiC(001) Surfaces 186 10. Diamond, Silicon, and Germanium {lll}-2 x 1 Surfaces 193 10.1 Cleaved Silicon and Germanium Surfaces 194 10.1.1 Early Models of (lll)-2 x 1 Reconstructions and Core-Level Shifts 194 10.1.2 Band Structure of Dangling-Bond Surface States: Experimental Data 197 10.1.3 Surface Band Gap 202 10.1.4 Tilted Chains 206 10.1.5 Band Structure of Dangling-Bond Surface States: Theoretical Results 213 10.2 Clean Diamond {111} Surfaces 213 10.2.1 Atomic Arrangement 213 10.2.2 Electronic Properties 215 10.3 Clean Diamond and Cleaved Silicon and Germanium {111} Surfaces in Comparison 217 11. Si(lll)-7 X 7 and Ge(lll)-c(2 X 8) Surfaces 219 11.1 Preparation of Clean Si(lll)-7 x 7 and Ge(lll)-c(2 x 8) Surfaces 219 11.2 Si(lll)-7 x 7: Atomic Arrangement 221 11.2.1 Elements of the 7x7 Reconstruction on Si(lll) Surfaces 221 11.2.2 Dimer-Adatom-Stacking Fault Model 225 11.3 Ge(lll)-c(2 x 8): Atomic Arrangement 229 11.4 Electronic Structure of Si(lll)-7 x 7 and Ge(lll)-c(2 x 8) Surfaces 232 11.4.1 Electronic Band Structure 232 11.4.2 Core-Level Spectroscopy 234 11.5 Energetics of Reconstructions on {111} Surfaces of Si and Ge: 7 x 7 Versus c(2 x 8) 237 12. Phase Transitions on Silicon and Germanium {111} Surfaces 241 12.1 Si(lll)-7x 7^ lx 1 and Ge(lll)-c(2 x8)^ 1 x 1 Phase Transitions 241 12.2 Ge(lll)- 1 x 1 High-Temperature Phase Transition 246 12.3 Irreversible Conversion of 2 x 1 Reconstructions on Cleaved Si and Ge Surfaces 247 XIV Contents 13. {111} Surfaces of Compounds with Zincblende Structure . 255 13.1 [lll]-Oriented Surfaces 255 13.2 [TTT]-Oriented Surfaces 257 14. Monovalent Adatoms 263 14.1 Adsorption of Halogens 263 14.1.1 Dissociative Adsorption 263 14.1.2 Bond Lengths and Adsorption Sites 269 14.2 Adsorption of Hydrogen 272 14.2.1 Si(001):H-Surfaces 272 14.2.2 Si(lll):H-J(7 x 7) Surfaces 275 14.2.3 Si(lll)- and Ge(lll):H-l x 1 Surfaces 276 14.3 Alkali and Silver Adatoms on Si{100} Surfaces 280 14.4 Monovalent Metal Adatoms on Si and Ge {111} Surfaces .... 283 14.4.1 Alkali Adatoms on Si(lll)-7 x 7 Surfaces 283 14.4.2 Si(lll):Ag- and Ge(lll):Ag-(v/3 x /3)R30o Structures 284 14.4.3 Si(lll):Au- and Ge(lll):Au-( /3 x x/3)R30° Structures 287 14.4.4 3x1 Reconstructions Induced by Alkali and Silver Adatoms on Si (111) Surfaces 288 14.5 Growth Kinetics of Metals on Cleaved GaAs(llO) Surfaces. .. 291 14.6 Adatom-Induced Surface Core-Level Shifts 300 14.7 Adatom-Induced Surface Dipoles 307 14.7.1 Mutual Interactions in Plane Arrays of Surface Dipoles 307 14.7.2 Surface Dipoles Induced by Alkali Adatoms 309 14.7.3 Hydrogen-Induced Surface Dipoles 311 14.8 Adatom-Induced Surface States 316 14.8.1 Cesium Adatoms on Cleaved Si Surfaces 316 14.8.2 Metal Adatoms on GaAs(llO) Surfaces 317 14.8.3 Nonmetal Adatoms on GaAs(llO) Surfaces 324 15. Group-III Adatoms on Silicon Surfaces 329 15.1 Si(lll):III-(v/3 x V3)R30° Reconstructions 329 15.1.1 A1-, Ga-, and In-Induced (V3 x v/3)R30° Reconstructions 330 15.1.2 B-Induced (y/3 x v/3)R30° Reconstruction 333 15.2 Reconstructions Induced by Group-III Adatoms on {100} Surfaces of Si and Ge 334 16. Group-V Adatoms 339 16.1 Si(lll):As-l x 1 and Si(001):As- and Si(001):Sb-2 x 1 Surfaces 339 Contents XV 16.2 Sb- and Bi-induced ( /3 x V3)R30° Structures on Si and Ge(lll) Surfaces 343 16.3 GaP-, GaAs-, and InP(110):Sb-l x 1 Surfaces 347 16.4 III-V(110):Bi-l x 1 Surfaces 350 17. Oxidation of Silicon and III-V Compound Semiconductors 353 17.1 Si(lll) Surfaces 353 17.1.1 Precursor-Mediated Chemisorption on Si(lll)-7 x 7 Surfaces 354 17.1.2 Oxygen-Induced Si(2p) Core-Level Shifts 361 17.1.3 Field-Assisted Oxidation 364 17.2 III-V Compound Semiconductors 366 17.2.1 Oxidation Kinetics on GaAs(llO) Surfaces 367 17.2.2 Photon-Stimulated Oxidation 371 17.2.3 Core-Level Spectroscopy: Growth Mode and Composition of Oxide Films 372 18. Surface Passivation by Adsorbates and Surfactants 377 18.1 Surface Passivation by Hydrogen 377 18.2 Surfactant-Mediated Growth 381 19. Semiconductor Interfaces 385 19.1 Metal-Semiconductor Contacts 386 19.1.1 Current Transport Across Metal-Semiconductor Contacts 386 19.1.2 Image-Force Effect 388 19.1.3 Determination of Barrier Heights: A Brief Comparison of Methods 389 19.1.4 Barrier Heights of Real Schottky Contacts 392 19.1.5 Laterally Inhomogeneous Schottky Contacts 1: Circular Patches 400 19.1.6 Laterally Inhomogeneous Schottky Contacts 2: BEEM 402 19.1.7 Laterally Inhomogeneous Schottky Contacts 3: I/V Characteristics 407 19.1.8 The MIGS-and-Electronegativity Concept: Experiment and Theory 411 19.1.9 Direct Observations of MIGS 418 19.1.10 Extrinsic Interface Dipoles 1: Interface Doping 420 19.1.11 Extrinsic Interface Dipoles 2: Metal/Si(lll)-(7 x 7) Contacts 424 19.1.12 Extrinsic Interface Dipoles 3: Epitaxial Silicide/Silicon Interfaces 427 XVI Contents 19.1.13 Origin of Lateral Barrier-Height Inhomogeneities 1: Natural Nonuniformities 434 19.1.14 Origin of Lateral Barrier-Height Inhomogeneities 2: Extrinsic Nonuniformities 435 19.1.15 Slope Parameter 437 19.1.16 Schottky Contacts on Ternary III-V Alloys 439 19.1.17 Temperature and High-Pressure Effects 444 19.1.18 Ohmic Contacts 451 19.2 Semiconductor Heterostructures 455 19.2.1 Band-Structure Lineup 455 19.2.2 Interface Dipoles at Polar Interfaces 457 19.2.3 Lattice-Matched Ternary and Quaternary III-V Alloys 461 19.2.4 Pressure and Temperature Dependence of Valence-Band Offsets 467 19.2.5 Pseudomorphic Interfaces 468 19.2.6 Metamorphic Heterostructures 471 19.3 Layered Semiconductors 472 19.4 Insulator Interfaces 476 19.4.1 Metal-Insulator Contacts 476 19.4.2 Semiconductor-Insulator Interfaces 479 Appendix 483 References 487 Index of Reconstructions and Adsorbates 535 Subject Index 539 Contents 1. Introduction 1 1.1 Historical Remarks 1 1.2 Surface Space Charge and Surface States: Some Preliminary Remarks 13 2. Surface Space Charge Region in Thermal Equilibrium .... 21 2.1 Solutions of Poisson s Equation 21 2.2 Surface Space Charge 25 2.3 Shape of Surface Barriers 27 2.4 Comparison of Space Charge Layers at Semiconductor and Metal Surfaces 28 2.5 Quantum Size Effects in Space Charge Layers 28 3. Surface States 33 3.1 Virtual Gap States of the Complex Band Structure 33 3.2 Intrinsic Surface States: Nearly Free Electron Model 36 3.3 Intrinsic Surface States: Tight Binding Approximation 44 3.4 Dangling Bonds 47 3.5 Adatom Induced Surface States: Tight Binding Approach.... 51 3.6 Adatom Induced Surface Dipoles: Electronegativity Concept . 53 3.7 Adatom Induced Surface States and Dipoles: ViGS Model ... 56 4. Occupation of Surface States and Surface Band Bending in Thermal Equilibrium 59 5. Surface Space Charge Region in Non Equilibrium 67 5.1 Surface Photovoltage 67 5.2 Dember Effect 73 5.3 Surface Transport 74 5.3.1 Surface Excess of Carriers 74 5.3.2 Surface Conductance 76 5.3.3 Surface Mobility 76 5.3.4 Field Effect of Surface Conductance 78 XII Contents 6. Interface States 81 6.1 Metal Semiconductor Contacts: Metal Induced Gap States .. 81 6.2 MIGS and Electronegativity Model of Metal Semiconductor Contacts 86 6.3 Slope Parameters of Barrier Heights in Schottky Contacts ... 91 6.4 Defects at Metal Semiconductor Interfaces 93 6.5 Band Lineup in Semiconductor Heterostructures: IFIGS and Electronegativity Model 96 6.6 Band Lineup at Semiconductor Heterostructures: Tight Binding Approach 98 6.7 Historical Notes 100 7. Cleaved {110} Surfaces of III V and II VI Compound Semiconductors 105 7.1 Ionicity and Core Level Spectroscopy of Compound Semiconductors 105 7.1.1 Layer Model of Photoemitted Electrons 105 7.1.2 Charge Transfer in the Bulk of Compound Semiconductors 109 7.2 Surface Core Level Shifts 112 7.3 Geometrical Surface Structure 114 7.4 Surface Phonons 122 7.5 Electronic Surface States 128 7.5.1 Intrinsic Versus Extrinsic Surface States 128 7.5.2 Cleavage Induced Surface States: InAs(llO) as an Example 131 7.5.3 Intrinsic Surface States 133 7.6 Temperature Dependence of the Ionization Energy 137 7.7 Chemical Trends of the Ionization Energy 140 8. {100} Surfaces of III V, II VI, and I VII Compound Semiconductors with Zincblende Structure 145 8.1 Reconstructions and Trends in Chemical Compositions 145 8.2 Dimerization 150 8.3 Missing Dimer Structures 153 8.4 Dimerization, Occupation of Dangling Bonds, and Electron Counting 161 8.5 Intrinsic Surface Band Structure 166 8.6 Fermi Level Pinning by Extrinsic Surface States 167 8.7 Ionization Energy 168 9. {100} Surfaces of Diamond, Silicon, Germanium, and Cubic Silicon Carbide 169 9.1 Atomic Arrangement 169 Contents XIII 9.2 Strain Effects on Si(OOl) Surfaces 175 9.3 Electronic Surface Properties 177 9.4 Surface Core Level Shifts 181 9.5 Reversible 2x1^ c(4 x 2) Surface Phase Transition 183 9.6 /3 SiC(001) Surfaces 186 10. Diamond, Silicon, and Germanium {lll} 2 x 1 Surfaces 193 10.1 Cleaved Silicon and Germanium Surfaces 194 10.1.1 Early Models of (lll) 2 x 1 Reconstructions and Core Level Shifts 194 10.1.2 Band Structure of Dangling Bond Surface States: Experimental Data 197 10.1.3 Surface Band Gap 202 10.1.4 Tilted Chains 206 10.1.5 Band Structure of Dangling Bond Surface States: Theoretical Results 213 10.2 Clean Diamond {111} Surfaces 213 10.2.1 Atomic Arrangement 213 10.2.2 Electronic Properties 215 10.3 Clean Diamond and Cleaved Silicon and Germanium {111} Surfaces in Comparison 217 11. Si(lll) 7 X 7 and Ge(lll) c(2 X 8) Surfaces 219 11.1 Preparation of Clean Si(lll) 7 x 7 and Ge(lll) c(2 x 8) Surfaces 219 11.2 Si(lll) 7 x 7: Atomic Arrangement 221 11.2.1 Elements of the 7x7 Reconstruction on Si(lll) Surfaces 221 11.2.2 Dimer Adatom Stacking Fault Model 225 11.3 Ge(lll) c(2 x 8): Atomic Arrangement 229 11.4 Electronic Structure of Si(lll) 7 x 7 and Ge(lll) c(2 x 8) Surfaces 232 11.4.1 Electronic Band Structure 232 11.4.2 Core Level Spectroscopy 234 11.5 Energetics of Reconstructions on {111} Surfaces of Si and Ge: 7 x 7 Versus c(2 x 8) 237 12. Phase Transitions on Silicon and Germanium {111} Surfaces 241 12.1 Si(lll) 7x 7^ lx 1 and Ge(lll) c(2 x8)^ 1 x 1 Phase Transitions 241 12.2 Ge(lll) 1 x 1 High Temperature Phase Transition 246 12.3 Irreversible Conversion of 2 x 1 Reconstructions on Cleaved Si and Ge Surfaces 247 XIV Contents 13. {111} Surfaces of Compounds with Zincblende Structure . 255 13.1 [lll] Oriented Surfaces 255 13.2 [TTT] Oriented Surfaces 257 14. Monovalent Adatoms 263 14.1 Adsorption of Halogens 263 14.1.1 Dissociative Adsorption 263 14.1.2 Bond Lengths and Adsorption Sites 269 14.2 Adsorption of Hydrogen 272 14.2.1 Si(001):H Surfaces 272 14.2.2 Si(lll):H J(7 x 7) Surfaces 275 14.2.3 Si(lll) and Ge(lll):H l x 1 Surfaces 276 14.3 Alkali and Silver Adatoms on Si{100} Surfaces 280 14.4 Monovalent Metal Adatoms on Si and Ge {111} Surfaces .... 283 14.4.1 Alkali Adatoms on Si(lll) 7 x 7 Surfaces 283 14.4.2 Si(lll):Ag and Ge(lll):Ag (v/3 x /3)R30o Structures 284 14.4.3 Si(lll):Au and Ge(lll):Au ( /3 x x/3)R30° Structures 287 14.4.4 3x1 Reconstructions Induced by Alkali and Silver Adatoms on Si (111) Surfaces 288 14.5 Growth Kinetics of Metals on Cleaved GaAs(llO) Surfaces. .. 291 14.6 Adatom Induced Surface Core Level Shifts 300 14.7 Adatom Induced Surface Dipoles 307 14.7.1 Mutual Interactions in Plane Arrays of Surface Dipoles 307 14.7.2 Surface Dipoles Induced by Alkali Adatoms 309 14.7.3 Hydrogen Induced Surface Dipoles 311 14.8 Adatom Induced Surface States 316 14.8.1 Cesium Adatoms on Cleaved Si Surfaces 316 14.8.2 Metal Adatoms on GaAs(llO) Surfaces 317 14.8.3 Nonmetal Adatoms on GaAs(llO) Surfaces 324 15. Group III Adatoms on Silicon Surfaces 329 15.1 Si(lll):III (v/3 x V3)R30° Reconstructions 329 15.1.1 A1 , Ga , and In Induced (V3 x v/3)R30° Reconstructions 330 15.1.2 B Induced (y/3 x v/3)R30° Reconstruction 333 15.2 Reconstructions Induced by Group III Adatoms on {100} Surfaces of Si and Ge 334 16. Group V Adatoms 339 16.1 Si(lll):As l x 1 and Si(001):As and Si(001):Sb 2 x 1 Surfaces 339 Contents XV 16.2 Sb and Bi induced ( /3 x V3)R30° Structures on Si and Ge(lll) Surfaces 343 16.3 GaP , GaAs , and InP(110):Sb l x 1 Surfaces 347 16.4 III V(110):Bi l x 1 Surfaces 350 17. Oxidation of Silicon and III V Compound Semiconductors 353 17.1 Si(lll) Surfaces 353 17.1.1 Precursor Mediated Chemisorption on Si(lll) 7 x 7 Surfaces 354 17.1.2 Oxygen Induced Si(2p) Core Level Shifts 361 17.1.3 Field Assisted Oxidation 364 17.2 III V Compound Semiconductors 366 17.2.1 Oxidation Kinetics on GaAs(llO) Surfaces 367 17.2.2 Photon Stimulated Oxidation 371 17.2.3 Core Level Spectroscopy: Growth Mode and Composition of Oxide Films 372 18. Surface Passivation by Adsorbates and Surfactants 377 18.1 Surface Passivation by Hydrogen 377 18.2 Surfactant Mediated Growth 381 19. Semiconductor Interfaces 385 19.1 Metal Semiconductor Contacts 386 19.1.1 Current Transport Across Metal Semiconductor Contacts 386 19.1.2 Image Force Effect 388 19.1.3 Determination of Barrier Heights: A Brief Comparison of Methods 389 19.1.4 Barrier Heights of Real Schottky Contacts 392 19.1.5 Laterally Inhomogeneous Schottky Contacts 1: Circular Patches 400 19.1.6 Laterally Inhomogeneous Schottky Contacts 2: BEEM 402 19.1.7 Laterally Inhomogeneous Schottky Contacts 3: I/V Characteristics 407 19.1.8 The MIGS and Electronegativity Concept: Experiment and Theory 411 19.1.9 Direct Observations of MIGS 418 19.1.10 Extrinsic Interface Dipoles 1: Interface Doping 420 19.1.11 Extrinsic Interface Dipoles 2: Metal/Si(lll) (7 x 7) Contacts 424 19.1.12 Extrinsic Interface Dipoles 3: Epitaxial Silicide/Silicon Interfaces 427 XVI Contents 19.1.13 Origin of Lateral Barrier Height Inhomogeneities 1: Natural Nonuniformities 434 19.1.14 Origin of Lateral Barrier Height Inhomogeneities 2: Extrinsic Nonuniformities 435 19.1.15 Slope Parameter 437 19.1.16 Schottky Contacts on Ternary III V Alloys 439 19.1.17 Temperature and High Pressure Effects 444 19.1.18 Ohmic Contacts 451 19.2 Semiconductor Heterostructures 455 19.2.1 Band Structure Lineup 455 19.2.2 Interface Dipoles at Polar Interfaces 457 19.2.3 Lattice Matched Ternary and Quaternary III V Alloys 461 19.2.4 Pressure and Temperature Dependence of Valence Band Offsets 467 19.2.5 Pseudomorphic Interfaces 468 19.2.6 Metamorphic Heterostructures 471 19.3 Layered Semiconductors 472 19.4 Insulator Interfaces 476 19.4.1 Metal Insulator Contacts 476 19.4.2 Semiconductor Insulator Interfaces 479 Appendix 483 References 487 Index of Reconstructions and Adsorbates 535 Subject Index 539
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id	DE-604.BV013315624
illustrated	Illustrated
indexdate	2024-12-20T10:45:05Z
institution	BVB
isbn	3540679022
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-009079722
oclc_num	44811872
open_access_boolean
owner	DE-703 DE-355 DE-BY-UBR DE-1050 DE-20 DE-29T DE-384 DE-634 DE-83 DE-188 DE-706
owner_facet	DE-703 DE-355 DE-BY-UBR DE-1050 DE-20 DE-29T DE-384 DE-634 DE-83 DE-188 DE-706
physical	XVI, 548 S. Ill., graph. Darst.
publishDate	2001
publishDateSearch	2001
publishDateSort	2001
publisher	Springer
record_format	marc
series	Springer series in surface sciences
series2	Springer series in surface sciences Physics and astronomy online library
spellingShingle	Mönch, Winfried Semiconductor surfaces and interfaces Springer series in surface sciences Semiconductors Junctions Semiconductors Surfaces Surface chemistry Oberfläche (DE-588)4042907-6 gnd Oberflächenchemie (DE-588)4126166-5 gnd Halbleiteroberfläche (DE-588)4137418-6 gnd Halbleitergrenzfläche (DE-588)4158802-2 gnd Halbleiter (DE-588)4022993-2 gnd Grenzschicht (DE-588)4022005-9 gnd
subject_GND	(DE-588)4042907-6 (DE-588)4126166-5 (DE-588)4137418-6 (DE-588)4158802-2 (DE-588)4022993-2 (DE-588)4022005-9
title	Semiconductor surfaces and interfaces
title_auth	Semiconductor surfaces and interfaces
title_exact_search	Semiconductor surfaces and interfaces
title_full	Semiconductor surfaces and interfaces Winfried Mönch
title_fullStr	Semiconductor surfaces and interfaces Winfried Mönch
title_full_unstemmed	Semiconductor surfaces and interfaces Winfried Mönch
title_short	Semiconductor surfaces and interfaces
title_sort	semiconductor surfaces and interfaces
topic	Semiconductors Junctions Semiconductors Surfaces Surface chemistry Oberfläche (DE-588)4042907-6 gnd Oberflächenchemie (DE-588)4126166-5 gnd Halbleiteroberfläche (DE-588)4137418-6 gnd Halbleitergrenzfläche (DE-588)4158802-2 gnd Halbleiter (DE-588)4022993-2 gnd Grenzschicht (DE-588)4022005-9 gnd
topic_facet	Semiconductors Junctions Semiconductors Surfaces Surface chemistry Oberfläche Oberflächenchemie Halbleiteroberfläche Halbleitergrenzfläche Halbleiter Grenzschicht
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009079722&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009079722&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000600785
work_keys_str_mv	AT monchwinfried semiconductorsurfacesandinterfaces

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