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David A. Atwood

Showing results (1-10 of 29) with videos related to

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Inorganic Chemistry|October 24, 2001
Chelated Borates: Synthesis, Reactivity, and Cation FormationPingrong Wei, David A. Atwood
Chemical Reviews|September 27, 2008
Synthesis, characterization, and applications of group 13 cationic compoundsSamuel Dagorne, David A Atwood
Inorganic Chemistry|May 7, 1997
Base Effects on the Formation of Four- and Five-Coordinate Cationic Aluminum ComplexesJolin A. Jegier, David A. Atwood
Inorganic Chemistry|May 9, 2006
Aluminum phosphinate and phosphates of salen ligandsAmitabha Mitra, Sean Parkin, David A Atwood
Inorganic Chemistry|January 3, 1996
A New Class of Aluminum Cations Based upon Tetradentate (N(2)O(2)) Chelating LigandsDavid A. Atwood, Jolin A. Jegier, Drew Rutherford
Inorganic Chemistry|August 29, 2006
Mercury(II) 2-aminoethanethiolate clusters: intramolecular transformations and mechanismsMohan S Bharara, Sean Parkin, David A Atwood
Inorganic Chemistry|February 28, 2006
Solution and solid-state study of heteroleptic Hg(II)-thiolates: crystal structures of [Hg4I4(SCH2CH2NH2)4] and [Hg4I8(SCH2CH2NH3)2]n.nH2OMohan S Bharara, Sean Parkin, David A Atwood
Water Research|November 27, 2002
Chemical precipitation of heavy metals from acid mine drainageMatthew M Matlock, Brock S Howerton, David A Atwood
Journal of Hazardous Materials|May 7, 2002
Effectiveness of commercial reagents for heavy metal removal from water with new insights for future chelate designsMatthew M Matlock, Kevin R Henke, David A Atwood
Journal of the American Chemical Society|January 26, 2006
Five-coordinate aluminum bromides: synthesis, structure, cation formation, and cleavage of phosphate ester bondsAmitabha Mitra, Lauren J Depue, Sean Parkin, et al.
Pageof 3

Showing results (1-10 of 29) with videos related to

Sort By:
Pageof 3
Inorganic Chemistry|October 24, 2001
Chelated Borates: Synthesis, Reactivity, and Cation FormationPingrong Wei, David A. Atwood
Chemical Reviews|September 27, 2008
Synthesis, characterization, and applications of group 13 cationic compoundsSamuel Dagorne, David A Atwood
Inorganic Chemistry|May 7, 1997
Base Effects on the Formation of Four- and Five-Coordinate Cationic Aluminum ComplexesJolin A. Jegier, David A. Atwood
Inorganic Chemistry|May 9, 2006
Aluminum phosphinate and phosphates of salen ligandsAmitabha Mitra, Sean Parkin, David A Atwood
Inorganic Chemistry|January 3, 1996
A New Class of Aluminum Cations Based upon Tetradentate (N(2)O(2)) Chelating LigandsDavid A. Atwood, Jolin A. Jegier, Drew Rutherford
Inorganic Chemistry|August 29, 2006
Mercury(II) 2-aminoethanethiolate clusters: intramolecular transformations and mechanismsMohan S Bharara, Sean Parkin, David A Atwood
Inorganic Chemistry|February 28, 2006
Solution and solid-state study of heteroleptic Hg(II)-thiolates: crystal structures of [Hg4I4(SCH2CH2NH2)4] and [Hg4I8(SCH2CH2NH3)2]n.nH2OMohan S Bharara, Sean Parkin, David A Atwood
Water Research|November 27, 2002
Chemical precipitation of heavy metals from acid mine drainageMatthew M Matlock, Brock S Howerton, David A Atwood
Journal of Hazardous Materials|May 7, 2002
Effectiveness of commercial reagents for heavy metal removal from water with new insights for future chelate designsMatthew M Matlock, Kevin R Henke, David A Atwood
Journal of the American Chemical Society|January 26, 2006
Five-coordinate aluminum bromides: synthesis, structure, cation formation, and cleavage of phosphate ester bondsAmitabha Mitra, Lauren J Depue, Sean Parkin, et al.
Pageof 3