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2,2,4,4-Tetramethyl-3-t-butyl-pentane-3-ol or tri-tert-butylcarbinol is an organic compound with formula C 13 H 28 O, ((H 3 C) 3 C) 3 COH, or t Bu 3 COH. [1] It is an alcohol that can be viewed as a structural analog of a tridecane isomer ( 2,2,4,4-tetramethyl-3- t -butylpentane ) where the central hydrogen has been replaced by a hydroxyl group ...
[2] [3] [4] The aldol reaction is paradigmatic in organic chemistry and one of the most common means of forming carbon–carbon bonds in organic chemistry . [ 5 ] [ 6 ] [ 7 ] It lends its name to the family of aldol reactions and similar techniques analyze a whole family of carbonyl α-substitution reactions , as well as the diketone ...
Comparison between a classical mechanism of molecular interaction (A) and a kinetic proofreading with one step (B). Due to the added reaction labelled in orange in (B), the production rate of the red bead is much more dependent on the value of k − 1 {\displaystyle k_{-1}} which is the purpose of kinetic proofreading.
The Ph 3 C-H bond is relatively weak, with a bond dissociation energy (BDE) of 81 kcal/mol, or about 24 kcal/mol less than methane. [4] Correspondingly, triphenylmethane is mildly acidic, with a pK a of 33.297.
The distinction between "step-growth polymerization" and "chain-growth polymerization" was introduced by Paul Flory in 1953, and refers to the reaction mechanisms, respectively: [4] by functional groups (step-growth polymerization) by free-radical or ion (chain-growth polymerization)
Figure 2 shows a scanning tunneling microscopy topographic image of a step edge that shows many of the features in Figure 1. Figure 3 shows a crystal surface with steps, kinks, adatoms, and vacancies in a closely packed crystalline material, [3] which resembles the surface featured in Figure 2. Although intuitively evident, it has only recently ...
The reaction mechanism of the Stevens rearrangement is one of the most controversial reaction mechanisms in organic chemistry. [4] Key in the reaction mechanism [5] [6] for the Stevens rearrangement (explained for the nitrogen reaction) is the formation of an ylide after deprotonation of the ammonium salt by a strong base.
The second step is the deoxygenation of the pinacolate, which yields the alkene, this second step exploits the oxophilicity of titanium. A proposed mechanism when TiCl 4 and Zn(Cu) are used for the coupling of benzophenone, as proposed in a reference. [3] Note that the mechanism may vary when different conditions are used.