附註:Includes bibliographical references and index.
Cover -- Table of Contents -- PREFACE -- ASPECTS ON DIRECT AND INVERSE PHOTOEMISSION STUDIES OF LAYERED TRANSITION METAL DICHALCOGENIDES -- 1 Introduction -- 2 Direct and Inverse Photoemission -- 3 Investigations on Selected Transition Metal Dichalcogenides -- PHOTOEMISSION FROM INTERCALATED TRANSITION METAL DICHALCOGENIDES -- 1 Introduction -- 2 Photoelectron Spectroscopy -- 3 Pure TMDCs -- 4 Intercalation of TMDCs -- 5 Intercalation of TMDCs with Alkali Metals -- 6 Intercalation of TMDCs with Other Simple Metals -- 7 Intercalation of TMDCs with 3d Transition Metals -- 8 Some Other Intercalation Systems -- 9 Concluding Remarks -- ELECTRONIC STRUCTURE FROM CORE LEVEL LINESHAPES IN CHARGE DENSITY WAVE AND INTERCALATE SYSTEMS -- 1 Introduction -- 2 Modelling XPS Lineshapes in Metals -- 3 Transition Metal Dichalcogenides: Intercalates and Charge Density Wave Systems -- 4 Experimental Details -- 5 Experimental Data:2H-TaS2 and its Intercalates -- 6 Experimental Data: CDWMetals IT-TaS2 and 4Hb-TaS2 -- 7 Conclusion -- UNOCCUPIED BAND STRUCTURE OF LAYERED MATERIALS BY VERY-LOW-ENERGY ELECTRON DIFFRACTION: IMPLICATIONS IN PHOTOEMISSION -- 1 Introduction -- 2 VLEED as a Band Structure Probe -- 3 VLEED Studies on Layered Materials: Properties of the Upper Bands -- 4 Implications of VLEED for PE Bandmapping -- 5 Conclusion -- HIGH-RESOLUTION PHOTOEMISSION STUDIES OF LOW-DIMENSIONAL SYSTEMS -- 1 Introduction -- 2 Generalities of ARPESWhy Low-Dimensional Systems? -- 3 2D Materials -- 4 ARPES of 2D Systems -- 5 One-Dimensional Systems -- 6 1D Mott Insulators: Theory -- 7 Charge Density Wave Materials -- 8 Conclusions -- PHOTOELECTRON SPECTROSCOPY OF LOW-DIMENSIONAL ORGANIC SYSTEMS -- 1 Introduction -- 2 Conjugated Polymers -- 3 Photoclectron Spectroscopy -- 4 Chemical and Electronic Structure of Pristine PPV -- 5 Comparison of the Electronic Structure of PPV, PPP, and LPPP -- 6 PPV in Air -- 7 Photo-Oxidation of PPV -- 8 PPV and Secondary Low Energy Electrons -- 9 Metal Atoms
摘要:This volume, aimed at researchers in condensed matter physics and materials science, reviews recent developments in the application of electron spectroscopies to a range of low-dimensional materials. In adopting as a common theme the techniques rather than specific materials, the volume amply demonstrates the effectiveness of electron spectroscopies extracting information on solids by their application to a range of phenomena in materials as disparate as high-temperature superconductors, polymeric materials, and charge density wave systems. In doing so, some similarities in the behaviour of these markedly different materials are also addressed.