Description
Book SynopsisThis compilation reports on the use of chemical modification as a complementary methodology in the study of various organic compounds by matrix-activated laser desorption/ionization mass spectrometry, particularly focusing on results obtained since the last decade of the 20th century. The influence of a three-phase contact line on extrinsic-substrate-induced nucleation is discussed in detail, and various geometric configurations corresponding to certain scenarios are also identified. The authors explore the synthesis and phase transitions in hexaferrites of Y-type, and emphasis is placed on the magnetic phase transition leading to the observation of magneto-electric effects. Features of the structure, properties and synthesis of various modifications of vanadium dioxide are discussed, and the effects of doping with hydrogen by means of plasma-immersion ion implantation are explored. Additionally, the structural, electronic, magnetic and optical properties of BiFeO3 and its doped sister compounds are studied experimentally using density functional theory calculations.
Table of ContentsPreface; Complementary Derivatization in Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry; Thermostability Analyses of Substrate-Geometry-Associated Physical Models of Heterogeneous Nucleation; Preparation and Phase Transitions in Y-Type Magneto-Electric Hexaferrites; Vanadium Oxide Thin Films: Metal-Insulator Transition, Electrical Switching, and Modification of the Properties by Ion Implantation; Doping in Multiferroic BiFeO3; Index.
