Rauchfuss Group Literature

Wednesday, July 6, 2011

Precise Isomerization Polymerization of Alkenylcyclohexanes: Stereoregular Polymers Containing Six-Membered Rings along the Polymer Chain

Precise Isomerization Polymerization of Alkenylcyclohexanes: Stereoregular Polymers Containing Six-Membered Rings along the Polymer Chain: "

TOC Graphic

Journal of the American Chemical Society
DOI: 10.1021/ja2043968


"
Posted by Tom Rauchfuss at 7:49 PM
Email ThisBlogThis!Share to XShare to FacebookShare to Pinterest

No comments:

Post a Comment

Newer Post Older Post Home
Subscribe to: Post Comments (Atom)

Followers

Blog Archive

  • ►  2013 (115)
    • ►  November (10)
    • ►  September (1)
    • ►  June (4)
    • ►  May (7)
    • ►  April (12)
    • ►  March (18)
    • ►  February (38)
    • ►  January (25)
  • ►  2012 (367)
    • ►  December (32)
    • ►  November (23)
    • ►  October (30)
    • ►  September (28)
    • ►  August (33)
    • ►  July (32)
    • ►  June (35)
    • ►  May (28)
    • ►  April (28)
    • ►  March (46)
    • ►  February (29)
    • ►  January (23)
  • ▼  2011 (293)
    • ►  December (23)
    • ►  November (29)
    • ►  October (41)
    • ►  September (49)
    • ►  August (62)
    • ▼  July (71)
      • Coordination and Catalytic Properties of a Semihom...
      • C–C Activation in the Solid State in an Organometa...
      • The chemistry of hydridocarbonylferrates revisited...
      • No title
      • An Oxidized Active Site Model for the FeFe Hydroge...
      • Simple and Efficient Iridium(III)-Catalyzed Water ...
      • Reactions of the Bis(dialkylphosphino)methane Comp...
      • Electrocatalytic Oxidation of Formate by [Ni(PR2NR...
      • Highly Effective Asymmetric Hydrogenation of Cycli...
      • Reversible Capture of Small Molecules On Bimetalla...
      • Computational Studies of Lewis Acidities of Tris(f...
      • Trialkylborane-Assisted CO2 Reduction by Late Tran...
      • Lewis Acids and Lewis Acid-Functionalized Ligands ...
      • A re-investigation of [Fe(L-cysteinate)2(CO)2]2-: ...
      • Mechanistic implications of an asymmetric intermed...
      • Synthesis and Catalytic Water Oxidation Activities...
      • Chemistry of polynuclear transition-metal complexe...
      • Metal–Ligand Cooperation by Aromatization–Dearomat...
      • Stoichiometric Reduction of CO2 to CO by Aluminum-...
      • Binding, release, and functionalization of CO2 at ...
      • Synthesis of Dinuclear Cobalt Complexes Containing...
      • Investigations on Macrocyclic Complexes Containing...
      • A Co4O4 “Cubane” Water Oxidation Catalyst Inspired...
      • Deactivation of the Cobalt Catalyst for the Cyclot...
      • A new building block for electroactive organic mat...
      • A new building block for electroactive organic mat...
      • Phosphorescent Sensor for Robust Quantification of...
      • Tetrairon Cluster Cp3Fe4(CO)4(C5H4PPh2) as a P–O C...
      • Organometallic frustrated Lewis pair chemistry
      • A triad [FeFe] hydrogenase system for light-driven...
      • More electron rich than cyclopentadienyl: 1,2-diaz...
      • Cooperative Double Deprotonation of Bis(2-picolyl)...
      • A Thermally Stable Peroxocopper(II) Complex with U...
      • Cp*–-Ruthenium–Nickel-Based H2-Evolving Electrocat...
      • Manifestations of Noninnocent Ligand Behavior
      • Harnessing Redox-Active Ligands for Low-Barrier Ra...
      • Accelerated Ring-Opening Metathesis Polymerization...
      • Spectroscopic Evidence for Redox Isomerism in the ...
      • Splitting Water with Cobalt
      • Coordination chemistry: All square for high-spin i...
      • Nitrogen fixation: Nitrido complexes step up
      • Dicarbonylrhodium(I) Complexes of Bipyridine Ligan...
      • Sulfur-Substituted Tetrahedranes
      • Metal–Ligand Cooperation by Aromatization–Dearomat...
      • Carbon–Silicon and Carbon–Carbon Bond Formation by...
      • Palladium-Catalyzed Aerobic Dehydrogenation of Sub...
      • Monoalkylation of Acetonitrile by Primary Alcohols...
      • Fe-Catalyzed Thioesterification of Carboxylic Esters
      • Reaction of bis(o-phosphinophenyl)silane with M(PP...
      • Holo-Ni2+Helicobacter pylori NikR contains four sq...
      • Precise Isomerization Polymerization of Alkenylcyc...
      • The [NiFe]-Hydrogenase of the Cyanobacterium Synec...
      • Synthesis and Characterization of Single, Double, ...
      • Transfer hydrogenation of unfunctionalised alkenes...
      • Reversible Reductive Dimerization of Diiron μ-Viny...
      • Hybrid Bilayer Membrane: A Platform To Study the R...
      • A Theoretical Study on the Enhancement of Function...
      • Activation of an Unstrained C(sp2)–C(sp2) Single B...
      • 3,7-Diazadibenzophosphole Oxide: A Phosphorus-Brid...
      • A stable molecular nickel catalyst for the homogen...
      • Synthesis, characterisation and catalytic activity...
      • Synthesis, structural characterization and electro...
      • The impact of P-substituents on the structures, sp...
      • Discrete Iridamacrocycle Formation via C–H Activat...
      • Water Splitting Promoted by a Ruthenium(II) PNN Co...
      • Bulky, Optically Active P-Stereogenic Phosphine–Bo...
      • A triad [FeFe] hydrogenase system for light-driven...
      • Efficient electrocatalytic hydrogen production fro...
      • A Process for the Synthesis of Formic Acid by CO2 ...
      • Light-Induced Enantioselective Hydrogenation Using...
      • Synthesis and characterization of fluorophenylpall...
    • ►  June (18)

Contributors

  • Angamuthu
  • BChan
  • BManor
  • David Schilter
  • James Lansing
  • Letko
  • Maria
  • Olbelina
  • Tom Rauchfuss
  • Wenguang
Awesome Inc. theme. Powered by Blogger.