User contributions for Hhb106

5 February 2009

• 14:4914:49, 5 February 2009 diff hist +7 Rep:Mod:woodfordreserve →Modelling Using Semi-empirical Molecular Orbital Theory
• 14:3714:37, 5 February 2009 diff hist +814 Rep:Mod:woodfordreserve →Modelling Using Semi-empirical Molecular Orbital Theory
• 14:2814:28, 5 February 2009 diff hist +82 Rep:Mod:woodfordreserve →Modelling Using Semi-empirical Molecular Orbital Theory

3 February 2009

• 14:2814:28, 3 February 2009 diff hist +19 Rep:Mod:makersmark No edit summary
• 12:5612:56, 3 February 2009 diff hist −5 Rep:Mod:makersmark No edit summary
• 12:2512:25, 3 February 2009 diff hist +1,027 N Rep:Mod:makersmark New page: =Inorganic Computational Chemistry - Part 1 - Set Studies= ==== ===Introduction=== Inorganic computational chemistry comes in to its own when considering the form and energy of activate...

1 February 2009

• 18:1818:18, 1 February 2009 diff hist +811 Rep:Mod:woodfordreserve →Modelling Using Semi-empirical Molecular Orbital Theory
• 18:0718:07, 1 February 2009 diff hist +402 Rep:Mod:woodfordreserve →Modelling Using Semi-empirical Molecular Orbital Theory
• 17:5817:58, 1 February 2009 diff hist +52 Rep:Mod:woodfordreserve No edit summary
• 17:5617:56, 1 February 2009 diff hist −155 Rep:Mod:woodfordreserve No edit summary
• 17:4817:48, 1 February 2009 diff hist +64 Rep:Mod:woodfordreserve →The reactivity of the different isomers
• 17:3817:38, 1 February 2009 diff hist +6 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 17:3717:37, 1 February 2009 diff hist +252 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 17:0817:08, 1 February 2009 diff hist +45 N File:Peptideproductshhb106.gif Products from the hydrolysis of the peptides. current
• 17:0817:08, 1 February 2009 diff hist +298 Rep:Mod:woodfordreserve →The reactivity of the different isomers
• 16:5116:51, 1 February 2009 diff hist +376 Rep:Mod:woodfordreserve →The reactivity of the different isomers
• 16:4216:42, 1 February 2009 diff hist +448 Rep:Mod:woodfordreserve →The reactivity of the different isomers
• 16:2816:28, 1 February 2009 diff hist +2 Rep:Mod:woodfordreserve →The reactivity of the different isomers
• 16:2816:28, 1 February 2009 diff hist +194 Rep:Mod:woodfordreserve No edit summary
• 16:2316:23, 1 February 2009 diff hist +276 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 16:1016:10, 1 February 2009 diff hist +397 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 15:5515:55, 1 February 2009 diff hist +2,016 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 13:0813:08, 1 February 2009 diff hist −1 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:5912:59, 1 February 2009 diff hist +175 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:5412:54, 1 February 2009 diff hist −19 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:5212:52, 1 February 2009 diff hist 0 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:5212:52, 1 February 2009 diff hist +6 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:4912:49, 1 February 2009 diff hist +413 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:3312:33, 1 February 2009 diff hist +1 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:3212:32, 1 February 2009 diff hist +28 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:3112:31, 1 February 2009 diff hist +28 Rep:Mod:woodfordreserve No edit summary
• 12:3012:30, 1 February 2009 diff hist +41 N File:Peptide14hhb106.gif Two conformational isomers of peptide 14. current
• 12:3012:30, 1 February 2009 diff hist +41 N File:Peptide13hhb106.gif Two conformational isomers of peptide 13. current
• 12:2912:29, 1 February 2009 diff hist +189 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:2412:24, 1 February 2009 diff hist +55 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide
• 12:2012:20, 1 February 2009 diff hist +236 Rep:Mod:woodfordreserve →How one might induce room temperature hydrolysis of a peptide

30 January 2009

• 21:2721:27, 30 January 2009 diff hist +43 Rep:Mod:woodfordreserve →Experiment 1-The Hydrogenation of the Cyclopentadiene Dimer
• 20:2120:21, 30 January 2009 diff hist +74 Rep:Mod:woodfordreserve No edit summary
• 19:5519:55, 30 January 2009 diff hist +2 Mod:organic →Submitting this file to the SCAN for geometry optimization
• 19:2119:21, 30 January 2009 diff hist +145 N File:Substitutedclickreactionhhb106.gif Products from the Huisgen cylcloaddition with substituted products. Cu(I) catalysis gives 1,4 product C and Ru(II) catalysis gives 1,5 product D. current
• 19:1919:19, 30 January 2009 diff hist −16 Rep:Mod:woodfordreserve →Assigning Regioisomers in Click Chemistry
• 18:2918:29, 30 January 2009 diff hist +163 Rep:Mod:woodfordreserve No edit summary
• 18:2618:26, 30 January 2009 diff hist +52 Rep:Mod:woodfordreserve No edit summary
• 18:2518:25, 30 January 2009 diff hist +6 Rep:Mod:woodfordreserve →Experiment 1-The Hydrogenation of the Cyclopentadiene Dimer
• 18:2418:24, 30 January 2009 diff hist −9 Rep:Mod:woodfordreserve →Experiment 1-The Hydrogenation of the Cyclopentadiene Dimer
• 18:1418:14, 30 January 2009 diff hist +1 Rep:Mod:woodfordreserve →Experiment 1-The Hydrogenation of the Cyclopentadiene Dimer
• 18:0918:09, 30 January 2009 diff hist +24 Rep:Mod:woodfordreserve →Experiment 1-The Hydrogenation of the Cyclopentadiene Dimer
• 17:5517:55, 30 January 2009 diff hist +44 Rep:Mod:woodfordreserve No edit summary
• 17:5117:51, 30 January 2009 diff hist 0 Rep:Mod:woodfordreserve →Assigning Regioisomers in Click Chemistry
• 17:5017:50, 30 January 2009 diff hist +161 Rep:Mod:woodfordreserve →Assigning Regioisomers in Click Chemistry