2 edition of Noble-gas chemistry. found in the catalog.
John H. Holloway
|The Physical Object|
|Pagination||viii, 213 p. illus. ;|
|Number of Pages||213|
The noble gas family of elements - helium, neon, argon, krypton, xenon, and radon - had previously been regarded as inert. By combining xenon with a platinum fluoride, Bartlett created the first noble gas compound. This reaction began the field of noble gas chemistry, which became fundamental to the scientific understanding of the chemical bond. Besides the emphasis on gas phase reactions, the author presents other relevant systems, such as chemistry in the bulk phase, under high pressure, and cold matrices. The discussion of gas-phase chemistry of the noble gases covers neutral and ionic compounds, diatomic molecules, complexes with small molecules and metal compounds, up to large.
This chapter discusses recent advances in noble-gas chemistry. The chemistry of xenon originates from the reactions of the binary fluorides and falls into five main categories: (1) reactions in which the xenon fluoride acts as a fluorinating agent, (2) hydrolysis reactions yielding oxide fluorides, oxides, and oxygencontaining salts, (3) fluoride/anion metathesis reactions between the fluoride Cited by: The noble gas (Ng) elements have a rich reaction chemistry despite having a filled valence shell that would indicate otherwise. Halide compounds, usually with fluorine, and various oxides are common.
Noble-Gas Chemistry. John H. n, London, (U.S. distributor, Barnes and Noble, New York). viii + pp., illus. $Author: Herbert H. Hyman. Occurrence, Preparation, and Properties of the Noble Gases. Learning Objectives. By the end of this section, you will be able to: The xenon fluorides are the best characterized as the starting materials for a few other noble gas compounds. Chemistry End of Chapter : OpenStax.
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The discussion of gas-phase chemistry of the noble gases covers neutral and ionic compounds, diatomic molecules, complexes with small molecules and metal compounds, up to large clusters. Author Bios Felice Grandinetti is professor at the Department for the Innovation in Biological Systems, Food and Forestry (DIBAF) Noble-gas chemistry.
book the University of Tuscia. Neon is a noble gas discovered by Sir William Ramsay, a Scottish chemist, in  with the help of his student, an English chemist, named Morris W.
Travers. Ramsay discovered the element Neon when he chilled a bit of the atmosphere. He did this until it liquefied, then he began to warm up the liquid until it became a that gas he realized there were actually three gases, they were. Noble-gas chemistry [Holloway, John H] on *FREE* shipping on qualifying offers.
Noble-gas chemistryAuthor: John H Holloway. Noble Gas Geochemistry gives a comprehensive description of the physical chemistry and cosmochemistry of noble gases, before leading on to applications for problem-solving in the earth and planetary sciences.
There have been many developments in the use of the noble gases since publication of the first edition of this book in Cited by: book reviews Editor: W. KIEFFER CollegeofWooster Wooster,Ohio Noble-Gas Chemistry JohnII.
Holloway,UniversityofAber- deen. Methuen&Co, Ltd.,London/ Barnes&Noble. Discovery of noble gas Compounds. Bartlett studied the properties of platinum fluoride PtF 6 in the s, and synthesized O 2 PtF was an epoch-making discovery in inorganic chemistry when analogous experiments on xenon, which has almost equal ionization energy ( kJ mol-1) to that of O 2 ( kJ mol-1), resulted in the dramatic discovery of XePtF 6.
Noble-gas chemistry was started in with the discovery of xenon hexafluoroplatinate followed with a number of compounds binding xenon or krypton. Figure Modern light bulbs are filled with the noble gas argon to prevent corrosion of the filament inside. Noble gases are also used to fill the glass tubes of lighted signs like the one in the figure below.
Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. The noble gases are also used in excimer lasers, which are based on short-lived electronically excited molecules known as excimers.
The excimers used for lasers may be noble gas dimers such as Ar 2, Kr 2, or Xe 2, or, more commonly, the noble gas is combined with a halogen in excimers such as ArF, KrF, XeF, or XeCl.
These lasers produce. Noble gas compounds are chemical compounds that include an element from the noble gases, group 18 of the periodic gh the noble gases are generally unreactive elements, many such compounds have been observed, particularly involving the element xenon.
Article Views are the COUNTER-compliant sum of full text article downloads since November (both PDF and HTML) across all institutions and : Cedric L. Chernick. Krebs, in Reference Module in Chemistry, Molecular Sciences and Chemical Engineering, The chapter Main Group and Noble Gas Chemistry documents the wide field of compound chemistry of groups 1, 2, as well of groups 13–18 elements.
The large collection of articles is focussed primarily on the synthesis, the chemical and physical properties of the compounds, including certain applications.
Authored by one of the worlds leading experts in the chemistry of lighter noble gases, this comprehensive monograph fills the need for an up-to-date review of the diverse experimental techniques and theoretical methods currently in practice.
After reviewing the experiments breaking the paradigm of non-reactive noble gases, the physico-chemical background is introduced. Besides the emphasis on Author: Felice Grandinetti. Light noble gas chemistry: structures, stabilities, and bonding of helium, neon and argon compounds.
The Journal of the American Chemical Society – Google Scholar. Noble Gas Definition and Examples Chemistry Glossary Definition of Noble Gas. Share Flipboard Email Print Xenon normally is a colorless noble gas, but it emits a blue glow when excited by an electrical discharge, as seen here.
pslawinski, Science. Chemistry Chemical Laws Basics. Learn noble gas chemistry with free interactive flashcards. Choose from different sets of noble gas chemistry flashcards on Quizlet. Additional Physical Format: Online version: Holloway, John H.
Noble-gas chemistry. London, Methuen, (OCoLC) Document Type: Book: All Authors. Noble-Gas Chemistry from Cryogenic to Ambient Temperatures The ambient temperature regime: “Classical” noble-gas compounds and the nature of chemical bonding The seminal discoveries that noble gases are indeed reactive enough to form chemical bonds have resulted in an avalanche of novel compounds during the next 50 Size: 2MB.
Radon was first identified in by German chemist Friedrich E. Dorn; it was established as a member of the noble-gas group in Rayleigh and Ramsay won Nobel Prizes in for their work. In the French chemist Henri Moissan, who discovered elemental fluorine in and was awarded a Nobel Prize in for that discovery, failed.
Noble Gas Geochemistry discusses the fundamental concepts of using noble gases to solve problems in the earth and planetary sciences.
The discipline offers a powerful and unique tool in resolving problems such as the origin of the solar system, evolution of the planets, earth formation, mantle evolution and dynamics, atmospheric degassing and evolution, ocean circulation, dynamics of aquifer.
Noble-gas chemistry by Holloway, John H. Publication date Topics Gases, Rare, Gases, Rare Publisher London, Methuen Collection Borrow this book to access EPUB and PDF files. IN COLLECTIONS. Books to Borrow. Books for People with Pages: Every single thing and person consists of elements, and this informative series will help young readers understand just how important the elements are and what role they play in the science of chemistry.
Enhanced by easy-to-follow diagrams and full-color illustrations, the text explains how elements behave, their individual characteristics and their importance in everyday life.This book gives a comprehensive description of the physical chemistry and cosmochemistry of noble gases, before leading on to applications for problem-solving in the earth and planetary sciences.
There have been many developments in the use of the noble gases since publication of the first edition of .