Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /

Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /

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Despite more than 200 years of sulfur research the chemistry of elemental sulfur and sulfur-rich compounds is still full of “white spots” which have to be filled in with solid knowledge and reliable data. This situation is parti- larly regrettable since elemental sulfur is one of the most important raw - terials of the chemical industry produced in record-breaking quantities of ca. 35 million tons annually worldwide and mainly used for the production of sulfuric acid. Fortunately, enormous progress has been made during the last 30 years in the understanding of the “yellow element”. As the result of extensive inter- tional research activities sulfur has now become the element with the largest number of allotropes, the element with the largest number of binary oxides, and also the element with the largest number of binary nitrides. Sulfur, a typical non-metal, has been found to become a metal at high pressure and is even superconducting at 10 K under a pressure of 93 GPa and at 17 K at 260 GPa, respectively. This is the highest critical temperature of all chemical elements. Actually, the pressure-temperature phase diagram of sulfur is one of the most complicated of all elements and still needs further investigation.

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Main Authors: Steudel, Ralf. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2003
Subjects:Chemistry., Inorganic chemistry., Condensed matter., Inorganic Chemistry., Condensed Matter Physics.,
Online Access:http://dx.doi.org/10.1007/b11909
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spelling KOHA-OAI-TEST:1798622018-07-30T22:59:43ZElemental Sulfur und Sulfur-Rich Compounds II [electronic resource] / Steudel, Ralf. editor. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,2003.engDespite more than 200 years of sulfur research the chemistry of elemental sulfur and sulfur-rich compounds is still full of “white spots” which have to be filled in with solid knowledge and reliable data. This situation is parti- larly regrettable since elemental sulfur is one of the most important raw - terials of the chemical industry produced in record-breaking quantities of ca. 35 million tons annually worldwide and mainly used for the production of sulfuric acid. Fortunately, enormous progress has been made during the last 30 years in the understanding of the “yellow element”. As the result of extensive inter- tional research activities sulfur has now become the element with the largest number of allotropes, the element with the largest number of binary oxides, and also the element with the largest number of binary nitrides. Sulfur, a typical non-metal, has been found to become a metal at high pressure and is even superconducting at 10 K under a pressure of 93 GPa and at 17 K at 260 GPa, respectively. This is the highest critical temperature of all chemical elements. Actually, the pressure-temperature phase diagram of sulfur is one of the most complicated of all elements and still needs further investigation.M.W. Wong: Quantum Chemical Calculations of Sulfur-Rich Compounds -- B. Eckert, R. Steudel: Molecular Spectra of Sulfur Molecules and Solid Sulfur Allotropes -- R. Steudel: Inorganic Polysulfanes H2Sn -- R. Steudel: Inorganic Polysulfides Sn2- and Radical Anions Sn- -- N. Takeda, N. Tokitoh and R. Okazaki: Polysulfido Complexes of Main Group and Transition Metals -- R. Steudel: Sulfur-Rich Oxides SnO and SnO2.Despite more than 200 years of sulfur research the chemistry of elemental sulfur and sulfur-rich compounds is still full of “white spots” which have to be filled in with solid knowledge and reliable data. This situation is parti- larly regrettable since elemental sulfur is one of the most important raw - terials of the chemical industry produced in record-breaking quantities of ca. 35 million tons annually worldwide and mainly used for the production of sulfuric acid. Fortunately, enormous progress has been made during the last 30 years in the understanding of the “yellow element”. As the result of extensive inter- tional research activities sulfur has now become the element with the largest number of allotropes, the element with the largest number of binary oxides, and also the element with the largest number of binary nitrides. Sulfur, a typical non-metal, has been found to become a metal at high pressure and is even superconducting at 10 K under a pressure of 93 GPa and at 17 K at 260 GPa, respectively. This is the highest critical temperature of all chemical elements. Actually, the pressure-temperature phase diagram of sulfur is one of the most complicated of all elements and still needs further investigation.Chemistry.Inorganic chemistry.Condensed matter.Chemistry.Inorganic Chemistry.Condensed Matter Physics.Springer eBookshttp://dx.doi.org/10.1007/b11909URN:ISBN:9783540449515
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Chemistry.
Inorganic chemistry.
Condensed matter.
Chemistry.
Inorganic Chemistry.
Condensed Matter Physics.
Chemistry.
Inorganic chemistry.
Condensed matter.
Chemistry.
Inorganic Chemistry.
Condensed Matter Physics.
spellingShingle Chemistry.
Inorganic chemistry.
Condensed matter.
Chemistry.
Inorganic Chemistry.
Condensed Matter Physics.
Chemistry.
Inorganic chemistry.
Condensed matter.
Chemistry.
Inorganic Chemistry.
Condensed Matter Physics.
Steudel, Ralf. editor.
SpringerLink (Online service)
Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /
description Despite more than 200 years of sulfur research the chemistry of elemental sulfur and sulfur-rich compounds is still full of “white spots” which have to be filled in with solid knowledge and reliable data. This situation is parti- larly regrettable since elemental sulfur is one of the most important raw - terials of the chemical industry produced in record-breaking quantities of ca. 35 million tons annually worldwide and mainly used for the production of sulfuric acid. Fortunately, enormous progress has been made during the last 30 years in the understanding of the “yellow element”. As the result of extensive inter- tional research activities sulfur has now become the element with the largest number of allotropes, the element with the largest number of binary oxides, and also the element with the largest number of binary nitrides. Sulfur, a typical non-metal, has been found to become a metal at high pressure and is even superconducting at 10 K under a pressure of 93 GPa and at 17 K at 260 GPa, respectively. This is the highest critical temperature of all chemical elements. Actually, the pressure-temperature phase diagram of sulfur is one of the most complicated of all elements and still needs further investigation.
format Texto
topic_facet Chemistry.
Inorganic chemistry.
Condensed matter.
Chemistry.
Inorganic Chemistry.
Condensed Matter Physics.
author Steudel, Ralf. editor.
SpringerLink (Online service)
author_facet Steudel, Ralf. editor.
SpringerLink (Online service)
author_sort Steudel, Ralf. editor.
title Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /
title_short Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /
title_full Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /
title_fullStr Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /
title_full_unstemmed Elemental Sulfur und Sulfur-Rich Compounds II [electronic resource] /
title_sort elemental sulfur und sulfur-rich compounds ii [electronic resource] /
publisher Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,
publishDate 2003
url http://dx.doi.org/10.1007/b11909
work_keys_str_mv AT steudelralfeditor elementalsulfurundsulfurrichcompoundsiielectronicresource
AT springerlinkonlineservice elementalsulfurundsulfurrichcompoundsiielectronicresource
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