By using the B3LYP level of density functional theory, possible decomposition reaction pathways of 2,4,6,8,10,12-hexanitro-2,4,6,8,10,12-hexaazaisowurtzitane (CL-20) in the gas phase have been investigated. We have found several types of reactions for this process: homolytic cleavage of an N-N bond to form the NO2* group; HONO elimination; C-C and C-N bonds breaking leading to ring opening; and H-migration. On the basis of the results of computation scanning of the potential energy surface, the most favorite pathway of CL-20 unimolecular decomposition that results in the formation of the stable aromatic compound 1,5-dihydrodiimidazo[4,5-b:4',5'-e]pyrazine has been proposed.
This project is designed to improve physical chemistry and instrumental analysis laboratory courses for undergraduate students by employing as teaching tools novel technologies in electronics and data integration using the industrial Internet. The project carried out by upperdivision undergraduates is described. Students are exposed to a complete process of building, calibrating, and programming an automatic titrator using an open-source microcontroller platform and standard pH probes, and integrating the instrument into the Internet. The approach is flexible and can be used to enable integration of various laboratory instruments (e.g., temperature, pressure, salinity probes, etc.) into the industrial Internet. The hardware and software are open-source, which makes further modification and development by the academic community possible.
A novel kinetic approach based on ab initio calculated rate constants has been developed and implemented in the kTSim program. The proposed approach allows prediction of the distribution of reactant and product concentrations over time, based exclusively on computationally obtained rate constants. The newly developed methodology was used to simulate the process of evaporation and tautomerization of guanine and cytosine under thermal (T = 490 K, cytosine; T = 620 K, guanine) and laser (T = 1000 K, 24 ns laser pulse) desorption conditions. Both monomolecular and bimolecular mechanisms of the tautomerization were considered simultaneously. The rates of the reactions were estimated using the values of Gibbs free energies calculated at the MPWB1K/aug-cc-pVDZ level and specified in a kTSim input. We expect that the proposed approach can also be used for accurate kinetic simulation of a wide range of processes.
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