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“Electrocrystallization is a particular case of a first order phase transition” and “Electrocrystallization is a particular case of electrochemical kinetics” are two statements that I have heard and read many times. I do not like them for a simple reason: it is annoying to see that the subject to which you have devoted more than 30 years of your life may be considered as a “particular case”. Therefore, I decided to write this book in which Electrocrystallization is the main subject. To become competent in the field of Electrocrystallization one should possess knowledge of Electrochemistry, Nucleation and Crystal Growth, which means knowledge of Physical Chemistry, Physics and Mathematics. That is certainly difficult and in most cases those who study Electrocrystallization are either more electrochemists, or more physical chemists, or more physicists, very often depending on whom has been their teacher. Of course, there are scientists who consider themselves equally good in all those fields. Very frequently they are, unfortunately, equally bad. The difference is essential but strange enough, it is sometimes not easy to realize the truth immediately.
This book is a hard bound edition of a special issue (vol. 48/20-22) of the journal Electrochimica Acta. It summarizes the highlights of the 53rd Annual meeting of the International Society of Electrochemistry and Annual meeting of the GDCh-Fachgruppe Angewandte Elektrochemie. The theme of the conference was Electrochemistry in Molecular and Microscopic dimensions and was based on the role of electrochemistry in the miniaturization of chemical and physical methods. Topics covered are : - development of electrochemistry with microscopic and molecular resolution; - initiation of advances in Electrochemical Microsystem Technologies EMT, and micro/nano-electronics; - development of Electrochemical Materials Science for nanomaterials; - enhancement of miniaturization and sensitivity of electroanalysis, and; - the bridge from electrochemistry to biology and medicine of microscopic and molecular understanding. - Summarizes the highlights of two major electrochemistry meetings. - It includes research papers on the electrochemical processes in micro- and nanotechnology. - Highlights developments and advances in electrochemistry.
Nucleation and Growth in Applied Materials covers fundamental aspects of thermodynamics and kinetics, nucleation and growth phenomena occurring during materials processing and synthesis in engineering of materials. Theoretical and practical approaches used to identify and quantify nucleation are analyzed. These approaches can be used to explain the relationship of the physical properties of the material with nucleation and growth processes. Sections cover modern methods such as SEM, TEM, EBSD microtexture, X-ray macrotexture and modeling and simulation (Monte Carlo, Molecular dynamic simulation, machine learning, etc.). Based on these observations, their applications in engineering materials...
Here, the well-known editor in the field of electrocrystallization and his team of excellent international authors guarantee the high quality of the contributions. Clearly structured in two main parts, this book reviews the fundamentals and applications of electrocrystallization processes in nanotechnology. The first part, "Fundamentals" covers the basic concepts of electrocrystallization, computer simulations of low-dimensional metal phase formation, electrodeposition in templates and nanocavities, nanoscale electrocrystallization from ionic liquids, and superconformal electrodeposition of metals. The second part, "Preparation and properties of nanostructures", includes nanostructuring by STM tip induced localized electrocrystallization of metals, fabrication of ordered anodic nanoporous Al2O3 layers and their application, preparation of nanogaps, nanocontacts, nanowires and nanodots by selective electrochemical deposition, as well as electrodeposition of magnetic nanostructures and multilayers
In this collection of interrelated essays, the authors review landmark developments in electrochemistry building on biographic material and personal insight. The book facilitates understanding of the innate pathways of developments in electrochemical science as a result of lucky circumstances fitting to objective conditions. Thus the book will help to understand the present state of electrochemistry and offer inspiration for solving today’s scientific challenges. The authors as experienced electrochemists from the U.S., Western and Eastern Europe also provide guidance for scientific careers by presenting biographical examples of famous electrochemists.
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