As we all know, as an indispensable modern industrial raw material production of active metals such as lithium, sodium, potassium, calcium can not be separated molten salt electrolysis. 40 years of the 20th century developed the widely used high-tech sophisticated weapons to molten salt for thermal batteries are the battery electrolyte. These industrial sectors and the emergence and development of an urgent need for salt panels theory as their basis, so effectively facilitate and promote the molten salt electrochemical establishment and development of basic theory. Salt Electrochemistry basic theory in turn promote the establishment of these industrial sectors, so that a more secure theoretical basis, Lenovo Thinkpad X300 battery so that the development of these industries rose to a new level. So from practice to theory, from theory to practice to recognize up to a new level, this is a universal law of epistemology.

Basic theory and other disciplines as the basis of the electrochemical theory of salt is evolving. In the early 20th century, scientists from various countries began to Salt Electrochemistry theoretical research and published many valuable papers. 1937, edited, published, etc. An Qiping the “Salt Electrochemistry,” a book on the research was conducted to collect, collate and summarize. Although the contents of the book now seems obsolete, but still has the times. Published in 1955, edited by Ya Geer “melt industrial electrolysis”, which sums up the practical experience of the past, Dell XPS M1310 battery molten salt electrolysis is a molten salt electrochemical aspects of practical work, but it does not seem to clarify the Salt Electrochemistry The basic theory. Published in 1957 by husband and so do Australia have also edited the “salt of Physical Chemistry,” a book, a comprehensive account of the modern level of molten salt electrolyte chemical basic problems, which focuses primarily on the structure of molten salt, density, melting , volatile, viscosity, surface tension, conductivity, thermodynamic properties, however, is rarely involved in the electrode force and melt process issues. Published in 1964 by the Soviet Union I0. K other compiled the “Salt Electrochemistry,” a book, the basis for the modern theory of molten salt electrochemical basis. The book explained more completely the foundation of the modern theory of molten salt electrochemistry, involving molten salt ion conductivity and the migration of molten salt electrolyte primary batteries, the decomposition voltage of molten salt, molten salt in the electrode potential, the metal in molten salt solubility, metal – molten salt balance, electrolysis and polarization, molten salt in the electrode process, molten salt, polarography and other basic theoretical issues. So 60 years of the 20th century, the basic theory of molten salt electrochemistry has been initially set. With the development of modern science and technology, instrumentation, experimental means of updating and development of molten salt electrochemistry based theory has been to develop the depth and breadth. Toshiba Satellite A100 battery Salt Electrochemistry this chapter the basic theory through the introduction and further clarified it in molten salt electrolyte thermal battery in the application, the thermal battery research, design, production on a more solid theoretical foundation, to promote the thermal batteries development, to better services for the modernization of national defense construction.