Zobrazeno 1 - 9 of 9 pro vyhledávání: '"Richard C. Wedlich"'
1
Good Laboratory Practice. Part 2. Recording and Retaining Raw Data
Autor: Richard C. Wedlich, Agata E. Libera, Amanda Pires, Cassandra Tellarini
Publikováno v: Journal of Chemical Education. 90:858-861
A clear understanding of how “raw data” is defined, recorded, and retained in the laboratory record is essential to the chemist employed in the laboratory compliant with the Good Laboratory Practices regulations. This article is intended to provi
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::e907a5c1fcf2294274e33fd557f180b7
https://doi.org/10.1021/ed3002557
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2
Good Laboratory Practice. Part 3. Implementing Good Laboratory Practice in the Analytical Lab
Autor: Joseph M. Fransen, Lisa Fazzino, Amanda Pires, Richard C. Wedlich
Publikováno v: Journal of Chemical Education. 90:862-865
Laboratories submitting experimental results to the Food and Drug Administration (FDA) or the Environmental Protection Agency (EPA) in support of Good Laboratory Practice (GLP) nonclinical laboratory studies must conduct such work in compliance with
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::17bc31efa58a6e7420a7f3486c6cf1b8
https://doi.org/10.1021/ed300256a
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3
Good Laboratory Practice. Part 1. An introduction
Autor: Matthew T. Therrien, Agata E. Libera, Richard C. Wedlich, Amanda Pires
Publikováno v: Journal of Chemical Education. 90:854-857
The Good Laboratory Practice (GLP) regulations were put into place in 1978. They establish a standard of practice to ensure that results from the nonclinical laboratory study reported to the U.S. Food and Drug Administration (FDA) are valid and that
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::e2a286236c4151337216b261112188ab
https://doi.org/10.1021/ed3002545
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4
ChemInform Abstract: Transition Metal Catalysis of the Heterogeneous Decomposition of Hydrazine: Adiabatic Kinetics by Accelerating Rate Calorimetry
Autor: Richard C. Wedlich, Nathalie B. Martin, Dennis D. Davis
Publikováno v: ChemInform. 22
The thermochemical kinetics of the transition-metal-catalyzed decomposition reaction of hydrazine have been studied using accelerating rate calorimetry. The reaction stoichiometry was determined by both product analysis and thermochemical balance. In
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::3ceca617620e690e11ba0263cfdc1fc5
https://doi.org/10.1002/chin.199126026
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5
ChemInform Abstract: Non-Isothermal Kinetics of Hydrazine Decomposition
Autor: Richard C. Wedlich, Dennis D. Davis
Publikováno v: ChemInform. 22
Accelerating rate calorimetry has been used to study the kinetics of the titanium thermal decomposition of liquid and vapor hydrazine over the temperature range 475–590 K. In a titanium reaction vessel, hydrazine decomposes exothermically to ammoni
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::72ffea01747116c001c32ceafc9dcefc
https://doi.org/10.1002/chin.199107013
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6
Synthesis and thermal decomposition of copper(I) silyloxide complexes. X-ray crystal structures of [Cu(OSiPh3)]4 and [Cu(OSiPh3)(PMe2Ph)]2
Autor: Kenneth G. Caulton, Kirsten Folting, Richard C. Wedlich, Paul S. Coan, Michael J. McGeary
Publikováno v: Polyhedron. 11:2459-2473
Homoleptic copper(I) silyloxide complexes [Cu(OSiR 3 )] 4 [SiR 3 = SiPh 3 ( 2 ), SiPh 3 ·toluene ( 1 ) SiMe 2 Bu t ( 3 ), SiEt 3 ( 4 )] were prepared by reaction of copper(I) mesityl with equivalent amounts of silanol. Reaction of [Cu(OSiR 3 )] 4 wi
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::eb8d7e5aa51af49bc4f718915d4d1db8
https://doi.org/10.1016/s0277-5387(00)83565-2
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7
Transition metal catalysis of the heterogeneous decomposition of hydrazine: adiabatic kinetics by accelerating rate calorimetry
Autor: Nathalie B. Martin, Dennis D. Davis, Richard C. Wedlich
Publikováno v: Thermochimica Acta. 175:175-188
The thermochemical kinetics of the transition-metal-catalyzed decomposition reaction of hydrazine have been studied using accelerating rate calorimetry. The reaction stoichiometry was determined by both product analysis and thermochemical balance. In
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::9c1226296abacac8d8ff624a0a9b2676
https://doi.org/10.1016/0040-6031(91)80064-p
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8
Kinetics and mechanism of the thermal decomposition of monomethylhydrazine by accelerating rate calorimetry
Autor: Dennis D. Davis, Richard C. Wedlich
Publikováno v: Thermochimica Acta. 175:189-198
The thermal decomposition reaction of monomethylhydrazine was studied using an accelerating rate calorimeter. Nitrogen, ammonia, methylamine, methane and ethane were the major products. Dimethylamine, 1,2-dimethyldiazene and traces of nine other nitr
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::b8ba9033a0688e63c9632e3df4b78e5d
https://doi.org/10.1016/0040-6031(91)80065-q
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9
Non-isothermal kinetics of hydrazine decomposition
Autor: Dennis D. Davis, Richard C. Wedlich
Publikováno v: Thermochimica Acta. 171:1-13
Accelerating rate calorimetry has been used to study the kinetics of the titanium thermal decomposition of liquid and vapor hydrazine over the temperature range 475–590 K. In a titanium reaction vessel, hydrazine decomposes exothermically to ammoni
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::1b752877efd99747b4a9c9a896a5fec5
https://doi.org/10.1016/0040-6031(90)87001-s
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