Novel Aspects of Diamond II

This edited book covers a wide range of novel scientific and engineering aspects of diamond films produced from chemical vapor deposition. It focuses on the most recent developments and achievements in this rapidly growing field from scientists and engineers across the domains of chemistry, biology, medicine, physics, and semiconductor engineering.
The latest volume of this consistently well-cited book brings an updated, systematic review of the latest developments in diamond research and application. Featuring contributed chapters from a mix of highly-active international researchers, this new edition presents recent research focusing on topics such as diamond for thermal management in high-power electronics, diamond MOSFETs, water treatment, application of machine learning for nanodiamonds, theoretical aspects of diamond growth, current trends in emerging diamond technologies, and the growth of doped single-crystal diamond. This book is especially appealing to interdisciplinary researchers and industry professionals working on advanced diamond devices and applications, as well as theoretical and computational methods for predicting and designing new diamond materials.

This new volume introduces topics such as diamond for high-power electronics and machine learning for nanodiamonds Covers recent experimental as well as theoretical and computational results of diamond research Written and edited by active, global experts in the field

Auteur
Dr. Nianjun Yang works as a Privatdozent and the group leader of nanomaterials at the Institute of Materials Engineering, University of Siegen (Germany) since 2014. After he obtained his PhD in 2005 from University of Fukui (Japan), he worked as a post-doctoral researcher at National Institute of Advanced Industrial Science and Technology (Japan) from 2006 to 2008 and the at New Mexico State University (USA) from 2005 to 2006. From 2008 to 2014 He has promoted as a group leader at Fraunhofer Institute for Applied Solid State Physics (Germany). His current research interests cover design, synthesis, properties and applications of functional materials in the fields of chemistry, materials, and energy. He has published about 200 papers in peer-reviewed journals, editing/ed 1 book series (nanocarbon chemistry, Wiley), 3 books, contributed 11 book chapters, delivered 35 invited talks and 50 oral presentations at international conferences. He is the program member of HasseltDiamond Workshop since 2013 and international conference of diamond and related materials since 2014 as well as Nanodiamond and new carbon (NDNC) in 2016, a guest-editor of 10 journals (e.g., Accounts of Chemicals Research, Small, Carbon, Nanoscale, ACS Applied Materials and Interfaces, Carbon, Electroanalysis, Journal of Electroanalytical Chemistry, Physica Status Solidi A, etc.), and the advisory member of Scientific Reports, diamond and related materials, Nano Research Energy, Materials Lab, and Materials Futures. He has organized 10 symposia at E-MRS Spring Meeting, focusing on synthesis, properties and applications of carbon and related materials.

Dr. Soumen Mandal is working as a Researcher at Cardiff University, UK. He has previously worked at Institut Neel, France between 2008 and 2012. He obtained his PhD from Indian Institute of Technology Kanpur, India in 2009. His current research interest is diamond growth and devices with applications in thermal management,superconductivity, filtration, and next generation communication. He is the co-inventor of diamond based electropositive filters. He has also pioneered chemical mechanical polishing of diamond. He has published about 75 journal articles in refereed journals, contributed 2 book chapters, written 1 review article. He has also delivered 1 plenary talk, 3 invited talks and numerous oral presentations in international conferences.

Contenu

Introduction.- Insights into Nanodiamond from Machine Learning.- Tuning surface properties of detonation and milled nanodia-monds by gas phase modications.- Early Stages of Polycrystalline Diamond Film Deposition on Seeded Substrates.- Polycrystalline diamond: recent advances in CVD synthesis and applications.- Growth of diamond on high-power electronic material.- Bonding, thermal and ambient stability of nitrogen-terminated diamond (100) surfaces by plasma exposure studied by ex-situ XPS, HREELS, and DFT modeling.- Solid State Surface Transfer Doping of Diamond: Advanced Photoemission Characterisation.- Direct Bonding of Diamond and Dissimilar Materials for Fab-ricating High Performace Power Devices.- Ion-implantation of Ultrananocrystalline Diamond Films for Field Electron Emission Applications.- Advances in Water Treatment Using Boron Doped Diamond Electrodes.- Electro-analysis using unmodied boron doped diamond elec-trodes.- Hydrogen-Terminated Diamond MOS Capacitors, MOSFETs, and MOSFET Logic Circuits.- Galfenol/Single-Crystal Diamond MEMS Magnetic Sensor.- Diamond-Graphene Nanohybrid (DGN) Films: Preparation, Characterization and Application.- Research Progress of Isotope Battery Devices Based on Ra-diation Voltaic Eect in Diamond.