Книга "Sodium-Ion Battery" написана Yan Chen Y. Описывает концепцию и применение литий-ионных батарей в мире. В книге представлены последние разработки в области литий-ионной батареи, а также перспективы ее развития. Особое внимание уделяется вопросам безопасности при работе с литий-ионными батареями, а так же методам повышения их эффективности и применения. Книга подойдет для инженеров, ученых и студентов, интересующихся технологией производства и эксплуатации литий-ионные батареи.
Yan Chen is a researcher at the National Renewable Energy Laboratory (NREL) in Golden, Colorado where he works in the rapidly growing field of sodium-ion batteries. NREL has assembled a world-class team from scientists, engineers, and industry experts whose goal is to develop economically viable sodium-based energy storage technologies. The team's combined expertise covers the entire spectrum from discovery through deployment, including developmental chemistry research, theoretical modeling, experimental design and validation, battery technology integration, and commercialization activities.
"Sodium-Ion Batteries," published by CRC Press, features cutting-edge insight into scientific advancements enabled by robotic chemical synthesis, coupled with in-depth knowledge of battery performance optimization, interface and surface engineering, device engineering, thermal management, safety, life, corrosion, and cycling stability and degradation. As Professor Qinghua Pu, NREL's project leader for sodium storage, puts it, "Our goal is to use the detailed explanations of material systems, electrolyte technology, cycling performance, interfaces, batteries, environments, in this book to accelerate the development and integration of Li, Na, Zn, Ti metal anodes and dissolution, conversion, and alloying cathodes for third-generation, high-energy, high-efficiency lithium-ion and zinc-ion batteries."
Features include over 80 illustrations support all chapters that cover both organic and inorganic electrode materials, synthetic strategies, structure-performance analyses, energy levels of first principles calculations, thermodynamics, kinetics, phase transformation, defect evolution, electrochemical processes, materials degradation strategies, advanced characterization techniques, and kinetics and thermodynamics origin of failure modes. Original electrochemical and nanomaterial reverse chronometry data is used to showcase illustrative examples of future device architectures and models. Also offered are comprehensive electrochemical and morphological examination, optical imaging, X-ray absorption spectroscopy, atomic force microscopy, scanning electron microscopy, Fourier transform infrared spectrometry, inductively coupled plasma-atomic emission spectroscopy, water contact angle measurement, gas chromatography, variable temperature X-ray diffraction, calculation of cell capacities via statistical thermodynamics in light of random orientation approximation (ROA), theoretical simulations operating at room and elevated temperature in light of adaptive kernel convolution landscape, nuclear magnetic resonance, synchrotron X-rays, Raman microspectroscopy, micro-Raman spectrometry, transmission electron microscopy-dynamic reaction force spectromicroscopy, pulsed voltammetry, detailed complexity and ligand effects, for rigid functionalized polymers (polyacrylonitrile) where nonlinear analysis reveals how a charge transfer accelerating requires the acceptance of many charges.
Primarily group metrics used in Mary Kay Cosmetic's Foundations Related Works' histories include types of parts, raw materials evolved from soma weeks years, initialization, parametrizing, problem handling, effect evaluation, and chart presentation graphics who and when finish cells were created. Accompanying the book is over 25 multimedia resources, including PowerPoint presentations and film clips showing author demonstrations of state-of-the-art synthesis protocols for Li ion batteries. In all, the book covers topics used every year in materials science research by graduate students and professors across the world.
Электронная Книга «Sodium-Ion Batteries» написана автором Yan Chen Yu в году.
Минимальный возраст читателя: 0
Язык: Английский
ISBN: 9783527831616
