Catalytic Aspects of Metal Phosphine Complexes

hoff, Department of Chemistry, Ball State University, Muncie, IN 47306. 3. A Novel Metal-Template Synthesis of Triphosphine Macrocycles. Arlan D. Norm...
3 downloads 4 Views 270KB Size
APPENDIX

Downloaded by UNIV OF TEXAS AT DALLAS on July 11, 2016 | http://pubs.acs.org Publication Date: June 1, 1982 | doi: 10.1021/ba-1982-0196.ch025

Papers Presented at Poster Session 1. Steric and Electronic Effects in Cobaloxime Complexes of Phosphines and Phosphites Joseph A . K a r g o l , Roger W . Crecely, and John L . Bumeister, Depart­ ment of Chemistry, University of Delaware, Newark, D E 19711 and P a u l J . Toscano and L u i g i G . M a r z i l l i , Department of Chemistry, T h e Johns H o p k i n s University, Baltimore, M D 21218 2. Cone Angles and MINDO/3 Calculations of Phosphines John A . Mosbo, Janice T . DeSanto, P a u l L . Bock, and Bruce N . Storhoff, Department of Chemistry, B a l l State University, M u n c i e , I N 47306 3. A Novel Metal-Template Synthesis of Triphosphine Macrocycles A r l a n D . N o r m a n and Bruce N . D i e l , Department of Chemistry, U n i ­ versity of Colorado, Boulder, C O 80309 4. First Synthesis and X-Ray Structural Determination of the Macrocyclic Schiff Base Phosphineamine Complex, Ni([16]dieneN P )(PFe) · 0.5 H 0 L . G . Scanlon, Y . - Y . Tsao, K . Toman, and S. C . Cummings, Depart­ ments of Chemistry and Geology, Wright State University, Dayton, O H 45435 and D . W . Meek, Department of Chemistry, T h e Ohio State University, Columbus, O H 43210 2

2

2

2

5. New Ligand Systems for the Linkage of Dissimilar Transition Metals N . E . Schore, L . Benner, and S. Sundar, Department of Chemistry, University of California at Davis, Davis, C A 95616 6. Synthesis and Structural Properties of Phosphenium Ion Complexes R. T . Paine, C . F . Campana, L . D . Hutchins, and R. W . Light, Depart­ ment of Chemistry, University of N e w M e x i c o , Albuquerque, N M 87131 7. Cyclopentadienylbis(ligand)nickel(I): Synthesis, Characterization, and Re­ activity E . K e n t Barefield, D a v i d A . Krost, Rodney Trytko, Scott Edwards, and Shaun O'Rear, School of Chemistry, Georgia Institute of Technology, Atlanta, G A 30332 and A l e x N . Williamson, Department of Chemistry, N o r t h Carolina State A & T University, Greensboro, N C 27411 8.

Controlling the Number of Metal Sites to Which a Poly(tertiary phosphine) Coordinates in Tungsten Carbonyls R. L . Keiter, J . W . Brodack, and R. D . Borger, Department of Chemis­ try, Eastern Illinois University, Charleston, I L 61920 and L . W . C a r y , L i f e Science D i v i s i o n , Stanford Research Institute, M e n l o Park, C A 94025

9. Kinetics and Mechanisms of Ligand Replacement Reactions in Trigonal Bipyramidal Nickel(II) Complexes of a Tetradentate Ligand Containing an Apical Phosphorus Donor Atom Eugene G r i m l e y and N a n c y M a c N e i l l , Department of Chemistry, Missis­ sippi State University, Mississippi State, M S 39762 409

Alyea and Meek; Catalytic Aspects of Metal Phosphine Complexes Advances in Chemistry; American Chemical Society: Washington, DC, 1982.

410

METAL

PHOSPHINE COMPLEXES

10. Ruthenium Complexes with Polydentate Phosphines Bernardo Fontal, Chemistry Department, Universidad de L o s Andes, M e r i d a , Venezuela and Henry Taube, Chemistry Department, Stanford University, Stanford, C A 94305 11. Application of High-Pressure IR Spectroscopy to the Study of the Inter­ action of Small Gaseous Molecules with V(II), V(III), and Ti(III) Phos­ phine Complexes V . H a l l and C . D a v i d Schmulbach, Department of Chemistry and B i o ­ chemistry, Southern Illinois University, Carbondale, I L 62901

Downloaded by UNIV OF TEXAS AT DALLAS on July 11, 2016 | http://pubs.acs.org Publication Date: June 1, 1982 | doi: 10.1021/ba-1982-0196.ch025

12.

Stereochemistry and Mechanism of Carbonyl Insertion on Octahedral LowSpin Iron(II) C . R. Jablonski, Department of Chemistry, M e m o r i a l University of Newfoundland, St. John's, Newfoundland, Canada A I B 3 X 7

13. A Copper(I)-Triphenylphosphine System to Reduce Dinitrogen B. D . James, R. Payne, and Β. E . Green, LaTrobe University, Bundoora, V i c t o r i a , Australia 3083 14. Enantioselective Carbon-Nitrogen Bond Formation G . E . Bossard and T . A . George, Department of Chemistry, University of Nebraska at L i n c o l n , L i n c o l n , N E 68588 15. Studies in Asymmetric Synthesis, Preparation, Reactivity, and Solid-State Structures of Cationic Rhodium Complexes Containing a Chiral Aminophosphine or Aminoarsine Ligand Douglas W . Stephan, J o - A n n E . Forrest, and Nicholas C . Payne, D e ­ partment of Chemistry, University of Western Ontario, L o n d o n , O n ­ tario, Canada N 6 A 5B7 16.

Synthesis of a New Chiral Phosphine and Its Application to Asymmetric Catalysis Dennis P. Riley and Robert Shumate, The Procter & Gamble Company, M i a m i Valley Laboratories, P.O. Box 39175, Cincinnati, O H 45239

17.

Phosphine Nitrosyl Complexes of Rhenium(I) K . R. G r u n d y , K . Robertson, and E . Woods, Department of Chemistry, Dalhousie University, Halifax, N o v a Scotia, Canada B 3 H 4J3

18.

Chemical and Catalytic Studies on Binuclear Cationic Complexes of Rhodium(I) Joel T . Mague and Steven H . DeVries, Department of Chemistry, Tulane University, N e w Orleans, L A 70118

19.

Complexes of Rhodium(I) with Carbon Monoxide, Bis(diphenylphosphino)methane, and Various Anionic Ligands A l a n R. Sanger, Alberta Research C o u n c i l , 11315-87 Avenue, E d m o n ­ ton, Alberta, Canada T 6 G 2 C 2

20.

Reactions of 2,6-Bis(di-/-butylphosphinomethyl)phenylrhodium(I) W i l l i a m C . K a s k a and C r a i g Jensen, Department of Chemistry, Univer­ sity of California, Santa Barbara, C A 93106

21.

A n Extremely Active and Selective Homogeneous Hydrogénation Catalyst, AcetyIdicarbonyl-Bis(trimethyIphosphite)cobaIt(I), CH C(0)Co(CO) (P(OCH ) ) Thomas S. Janik, M i c h a e l F . Pysczcek, and J i m D . A t w o o d , Department of Chemistry, S U N Y at Buffalo, N Y 14214 3

3

3

2

Alyea and Meek; Catalytic Aspects of Metal Phosphine Complexes Advances in Chemistry; American Chemical Society: Washington, DC, 1982.

2

411

APPENDIX

22.

PD(PPH ) -Catalyzed Alkylation of Enol Phosphates with Trialkylaluminum Compounds K a z u h i k o T a k a i , K o i c h i r o Oshima, and H i t o s i N o z a k i , Department of Industrial Chemistry, K y o t o University, Japan

23.

Pentacoordinate Platinum(II) Phosphole Complexes John H . Nelson and John Jeffrey M a c D o u g a l l , University of Nevada, Reno, N V 89557 and Francois Mathey, T h e Institute National de Re­ cherche Chimique Appliquée, 91710 Vert-le-Petit, France

4

Downloaded by UNIV OF TEXAS AT DALLAS on July 11, 2016 | http://pubs.acs.org Publication Date: June 1, 1982 | doi: 10.1021/ba-1982-0196.ch025

3

Alyea and Meek; Catalytic Aspects of Metal Phosphine Complexes Advances in Chemistry; American Chemical Society: Washington, DC, 1982.