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Unimolecular Reaction Kinetics in the High-Pressure Limit without Collisions

机译：高压下无碰撞的单分子反应动力学

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Molecular activation by blackbody photons, first postulated in 1919 by Perrin, plays a dominant role in the unimolecular dissociation of large ions trapped at low pressure in a Fourier-transform mass spectrometer. Under readily achievable experimental conditions, molecular ions of the protein ubiquitin equilibrate with the blackbody radiation field inside the vacuum chamber. The internal energy of a population of these ions is given by a Boltzmann distribution. From the temperature dependence of unimolecular dissociation rate constants measured in the zero-pressure limit, Arrhenius activation parameters equal to those in the high-pressure limit are obtained.

机译：黑体光子的分子活化作用（最初由Perrin于1919年提出）在傅立叶变换质谱仪中低压捕获的大离子的单分子解离中起主要作用。在容易达到的实验条件下，蛋白质泛素的分子离子与真空室内的黑体辐射场平衡。这些离子的内部能量由玻尔兹曼分布给出。从在零压力极限中测得的单分子解离速率常数的温度依赖性，获得与高压极限中的那些相等的阿伦尼乌斯活化参数。

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期刊名称 other
作者
William D. Price; Paul D. Schnier; Rebecca A. Jockusch; Eric F. Strittmatter; Evan R. Williams;
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年(卷),期 -1(118),43
年度 -1
页码 10640–10644
总页数 13
原文格式 PDF
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1. UNIMOLECULAR REACTION KINETICS IN THE HIGH-PRESSURE LIMIT WITHOUT COLLISIONS [J] . Price WD, Schnier PD, Jockusch RA, Journal of the American Chemical Society . 1996,第43期

机译：高压极限下无碰撞的单分子反应动力学
2. The influence of the different elements of an organic molecule structure on the main kinetic parameters of its unimolecular reaction in the high-pressure region [J] . David Krinkin Natural science . 2011,第8期

机译：高压区有机分子结构不同元素对其单分子反应主要动力学参数的影响
3. Collision Efficiency of Water in the Unimolecular Reaction CH_4 (+H_2O) ? CH_3 + H (+H_2O): One-Dimensional and Two-Dimensional Solutions of the Low-Pressure-Limit Master Equation [J] . Ahren W. Jasper, James A. Miller, Stephen J. Klippenstein The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2013,第47期

机译：水在单分子反应CH_4（+ H_2O）？中的碰撞效率？ CH_3 + H（+ H_2O）：低压极限主方程的一维和二维解
4. Rate constants of unimolecular reactions of SF_6 and products of its dissociation at the low pressure limit [C] . M.Bartlova, L.Adamec, O.Coufal Progress in plasma processing of materials 1999 . 1998

机译：SF_6的单分子反应及其离解产物在低压极限下的速率常数
5. Predicting Kinetics of Spin-Forbidden Unimolecular Reactions with Nonadiabatic Transition State Theory [D] . Lykhin, Aleksandr O. 2019

机译：非绝热过渡态理论预测自旋禁止单分子反应的动力学
6. Rate Coefficients of C1 and C2 Criegee Intermediate Reactions with Formic and Acetic Acid Near the Collision Limit: Direct Kinetics Measurements and Atmospheric Implications [O] . Oliver Welz, Arkke J Eskola, Leonid Sheps, -1

机译：碰撞极限附近的甲酸和乙酸引起的C1和C2学员中间反应的速率系数：直接动力学测量和大气意义
7. The influence of the different elements of an organic molecule structure on the main kinetic parameters of its unimolecular reaction in the high-pressure region [O] . David Krinkin 2011

机译：有机分子结构的不同元素对其在高压区单分子反应的主要动力学参数的影响

Unimolecular Reaction Kinetics in the High-Pressure Limit without Collisions

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