Zobrazeno 1 - 10
of 76
pro vyhledávání: '"Charles S. Weinert"'
Publikováno v:
Acta Crystallographica Section E, Vol 65, Iss 9, Pp o2186-o2186 (2009)
The title compound, C56H56Ge4O2·2CH2Cl2 or Tol8Ge4O2·2CH2Cl2 (Tol = p-CH3C6H4), was obtained serendipitously during the attempted synthesis of a branched oligogermane from Tol3GeNMe2 and PhGeH3. The molecule contains an inversion center in the midd
Externí odkaz:
https://doaj.org/article/20d7f1783ed24a83b3c28573af42cc95
Autor:
Charles S. Weinert
Publikováno v:
Organogermanium Compounds. :787-837
Publikováno v:
Main Group Chemistry. :1-12
The hexagermane Pri3Ge(GePh2)4GePr i3 (1) can adopt four different conformations by rotations about its germanium –germanium single bonds that differ in energy across an energy range of 31.63 kJ/mol, with the trans-coplanar arrangement having the l
Publikováno v:
Mendeleev Communications. 32:19-21
Publikováno v:
SSRN Electronic Journal.
Autor:
Ardalan Hayatifar, Charles Paroly, Jackson Vyletel, Charles S. Weinert, David Bosek, Gillian Tubay, Jonas Padilla, Erik Lytle, Adam Kuplicki, Alejandro Borrego, Gabriel Derocher, Matthew Czarnecki
Publikováno v:
Chemical Communications. 55:10852-10855
It has been shown that the germane Ph3GeH converts aryl and aliphatic acid fluorides directly to their corresponding aldehydes without over-reduction via the conversion of Ph3GeH to the germylium cation [Ph3Ge]+ by a catalytic amount of the tritylium
Autor:
Emily A. Elifritz, Molly B. Bloom, Christopher J. Fennell, Kaitlyn M. Pixley, Charles S. Weinert, Ardalan Hayatifar
Publikováno v:
Dalton transactions (Cambridge, England : 2003). 50(13)
Amide functional groups are an essential linkage that are found in peptides, proteins, and pharmaceuticals and new methods are constantly being sought for their formation. Here, a new method for their preparation is presented where germanium amides P
Autor:
Arnold L. Rheingold, F. Alexander Shumaker, Sydney A. Hallenbeck, Sangeetha P. Komanduri, Ardalan Hayatifar, Charles S. Weinert
Publikováno v:
Organometallics. 37:1852-1859
The fluorine-substituted branched oligogermane (Ph3Ge)3GeF was successfully synthesized from (Ph3Ge)3GeH and [Ph3C][BF4] after several unfruitful attempts using other synthetic methods and was formed as a mixture with Ph3GeF. Pure (Ph3Ge)3GeF could b
Autor:
Craig Dufresne, Marshall Neu, Christopher A. Kaffel, Claude H. Yoder, Cody J. Knight, Sangeetha P. Komanduri, F. Alexander Shumaker, Sydney A. Hallenbeck, James T. Rivard, Erico J. Fernandez, Beth A. Buckwalter, Lance J. Shackelford, Ryan E. Nazareno, Charles S. Weinert, Geoffrey Reeves
Publikováno v:
Journal of Organometallic Chemistry. 848:104-113
The three branched oligogermanes (Me 3 Ge) 3 GePh, (Me 2 Bu t Ge) 3 GePh, and (Me 2 PhGe) 3 GePh were synthesized via the hydrogermolysis reaction and were characterized by NMR ( 1 H, 13 C, and 73 Ge) spectroscopy. In addition, these three compounds
Autor:
Sangeetha P. Komanduri, Aaron C. Schrick, Christopher J. A. Daley, Arnold L. Rheingold, Charles S. Weinert
Publikováno v:
Main Group Chemistry. 16:217-225