Intermolecular decomposition

Decomposition of a -labeled mixed anhydride (DF 0.13, 1.0 mmol/g) in a popcorn polystyrene produced polymer-bound carbonate and benzoate esters (Scheme 10) (US). At 25 C for one year or at 100 C for 10 h the dry resin gave 20% or 25% intermolecular decomposition. The resin in dioxane at 90 <>C for 10 h or at 37 °C for 15 h with added triefliylamine gave S4% or 82% intermolecular decomposition. The swelling solvent provided the polymer chain mobility needed for reaction between two polymer-bound functional groups. 

The neopentyl (Me CCH —) and trimethylsilylmethyl (Me3SiCH2—) groups have proved particularly useful in blocking j -hydrogen transfer. Not only do they lack jS-hydrogen atoms, but their bulk probably also restricts sterically both intra-and intermolecular decomposition. 

One of the most difficult problems in the stabilization of reactive species is their decomposition via intramolecular processes. When intermolecular decomposition processes of reactive species such as dimerization and self-condensation are prevented by steric protection, they tend to undergo intramolecular side reactions with a substituent nearby. 

Most recently, intra- and intermolecular decomposition mechanisms are suggested based on the photolysis of secondary and tertiary hydrogen peroxides, as shown in Figure 5.11 [38]. 

As discussed in section A3.12.2. intrinsic non-RRKM behaviour occurs when there is at least one bottleneck for transitions between the reactant molecule s vibrational states, so drat IVR is slow and a microcanonical ensemble over the reactant s phase space is not maintained during the unimolecular reaction. The above discussion of mode-specific decomposition illustrates that there are unimolecular reactions which are intrinsically non-RRKM. Many van der Waals molecules behave in this maimer [4,82]. For example, in an initial microcanonical ensemble for the ( 211 )2 van der Waals molecule both the C2H4—C2H4 intennolecular modes and C2H4 intramolecular modes are excited with equal probabilities. However, this microcanonical ensemble is not maintained as the dimer dissociates. States with energy in the intermolecular modes react more rapidly than do those with the C2H4 intramolecular modes excited [85]. 

Nitrocellulose is among the least stable of common explosives. At 125°C it decomposes autocatalyticaHy to CO, CO2, H2O, N2, and NO, primarily as a result of hydrolysis of the ester and intermolecular oxidation of the anhydroglucose rings. At 50°C the rate of decomposition of purified nitrocellulose is about 4.5 x 10 %/h, increasing by a factor of about 3.5 for each 10°C rise in temperature. Many values have been reported for the activation energy, E, and Arrhenius frequency factor, Z, of nitrocellulose. Typical values foiE and Z are 205 kj/mol (49 kcal/mol) and 10.21, respectively. The addition of... 

The Barton reaction is usually carried out by irradiation of a nitrite ester 1 dissolved in a hydroxyl-free solvent under nitrogen atmosphere. Possible side-reactions can be decomposition reactions and intermolecular reactions sometimes the disproportionation may even predominate ... 

The strained bicyclic carbapenem framework of thienamycin is the host of three contiguous stereocenters and several heteroatoms (Scheme 1). Removal of the cysteamine side chain affixed to C-2 furnishes /J-keto ester 2 as a possible precursor. The intermolecular attack upon the keto function in 2 by a suitable thiol nucleophile could result in the formation of the natural product after dehydration of the initial tetrahedral adduct. In a most interesting and productive retrosynthetic maneuver, intermediate 2 could be traced in one step to a-diazo keto ester 4. It is important to recognize that diazo compounds, such as 4, are viable precursors to electron-deficient carbenes. In the synthetic direction, transition metal catalyzed decomposition of diazo keto ester 4 could conceivably furnish electron-deficient carbene 3 the intermediacy of 3 is expected to be brief, for it should readily insert into the proximal N-H bond to... 

The only reactions that are strictly hrst order are radioactive decay reactions. Among chemical reactions, thermal decompositions may seem hrst order, but an external energy source is generally required to excite the reaction. As noted earlier, this energy is usually acquired by intermolecular collisions. Thus, the reaction rate could be written as... 

In contrast to the intramolecular carbenoid C-H insertion, the inter-molecular version has not been greatly developed and has been for a long time regarded as a rather inefficient and unselective process. In this context, Davies and Hansen have developed asymmetric intermolecular carbenoid C H insertions catalysed by rhodium(II) (5 )-A-(p-dodecylphenyl)sulfonylprolinate. " Therefore, these catalysts were found to induce asymmetric induction in the decomposition of aryldiazoacetates performed in the presence of cycloalkanes,... 

The most common rearrangement reaction of alkyl carbenes is the shift of hydrogen, generating an alkene. This mode of stabilization predominates to the exclusion of most intermolecular reactions of aliphatic carbenes and often competes with intramolecular insertion reactions. For example, the carbene generated by decomposition of the tosylhydrazone of 2-methylcyclohexanone gives mainly 1- and 3-methylcyclohexene rather than the intramolecular insertion product. 

Keywords Polarizable force fields, Intermolecular interactions, Energy decomposition, Density... 

Intermolecular Energy decomposition analyses (EDA) are very useful approaches to calibrate force fields. Indeed, an evaluation of the different physical components of the interaction energy, especially of the many-body induction, is a key issue for the development of polarisable models. 

Intermolecular Energy Decomposition Schemes Equivalence Between Terms... 

Reinhardt P, Piquemal J-P, Savin A (2008) Fragment-localized Kohn-Sham orbitals via a Singles-CI procedure and application to local properties and intermolecular energy decomposition analysis. J Chem Theory Comput 4 2020... 

The thermal, but not the photochemical, decomposition of ferro-cenylsulphonyl azide (14) in benzene gave some intermolecular aromatic substitution product FCSO2NHC6H5 (6.5%) but no intermolecular cyclization product (17). Contrariwise, photolysis of 14 in benzene gave 17 but no anilide 1 ). 

Similar to the intramolecular insertion into an unactivated C—H bond, the intermolecular version of this reaction meets with greatly improved yields when rhodium carbenes are involved. For the insertion of an alkoxycarbonylcarbene fragment into C—H bonds of acyclic alkanes and cycloalkanes, rhodium(II) perfluorocarb-oxylates 286), rhodium(II) pivalate or some other carboxylates 287,288 and rhodium-(III) porphyrins 287 > proved to be well suited (Tables 19 and 20). In the era of copper catalysts, this reaction type ranked as a quite uncommon process 14), mainly because the yields were low, even in the absence of other functional groups in the substrate which would be more susceptible to carbenoid attack. For example, CuS04(CuCl)-catalyzed decomposition of ethyl diazoacetate in a large excess of cyclohexane was reported to give 24% (15%) of C/H insertion, but 40% (61 %) of the two carbene dimers 289). 

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