Temperature Dependence of Reactions of C&lt;sub&gt;2&lt;/sub&gt;(&lt;em&gt;a&lt;/em&gt;&lt;sup&gt;3&lt;/sup&gt;&lt;em&gt;&amp;Pi;&lt;/em&gt;&lt;sub&gt;u&lt;/sub&gt;) Radical with Several Unsaturated Hydrocarbons

Hu, Ren-Zhi; Zhang, Qun; Chen, Yang

doi:10.3866/pku.whxb20100938

Cited by 2 publications

(6 citation statements)

References 17 publications

(27 reference statements)

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“…C2 自由基与其他分子的反应动力学已被广泛研究, [20][21][22][23][24][25][26][27][28][29][30][31][33][34][35][36][37][38][39][40][41][42][43][44][45][46][47]…”

Section: 引言unclassified

“…采用脉冲激光光解-激光诱导荧光(PLP-LIF)的方法研究 C2(a 3 Пu)自由基与含硫小分子的实验在一个流动的不锈钢腔体中进行. 实验装置已经详细描述过, [31][32][33][34][38][39][40]46,48 因此只对主要参数进行简单描述. C2(a 3 Пu)自由基是由 266 nm 激光(Nd:YAG 激光器, INDI, Spectra Physics 公司, 单脉冲能量为 5.5 mJ, 重复频率为 10 Hz)通过 500 mm 的石英透镜聚焦光解四氯乙烯(C2Cl4)产生的, C2(a 3 Пu)自由基的浓度由 516.5 nm 49 的检测光(Sirah, 单脉冲能量为 1.5 mJ, 重复频率为 10 Hz)激发 C2(a 3 Пu)…”

Section: 实验unclassified

“…为满足假一级近似条件, 在实验过程中保持前置气体 C2Cl4分压比反应物分压低很多. [31][32][33][34][38][39][40]46,48 13 No.5 The error bars represent ±2σ estimates of the total experimental error.…”

Section: 结果与讨论unclassified

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Temperature Dependence of C2(a3Пu) Radical Reactions with Sulfur Bearing Molecules

Hu¹,

Pin-Hua²,

Zhang³

et al. 2014

Acta Physico-Chimica Sinica

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的方法在 298-673 K 的温度范围内测量了 C2(a 3 Пu)自由基与含硫小分子(H2S, SO2, CS2)气相反应的双分子反应速率常数. 获得的速率常数可以用 Arrhenius 公式表达如下(单位: cm 3 •molecule-1 •s-1): k(H2S)=(1.61±0.06)×10-12 exp[-(180.91±15.73)/T], k(SO2)=(1.26±0.10)×10-15 × exp[(2230.68±27.77)/T], k(CS2)=(1.17±0.02)×10-10 exp[(253.31±7.69)/T]; 误差为 2σ. 由获得的双分子速率常数及所表现的正温度效应, 认为 C2(a 3 Пu)与 H2S 反应遵循抽氢反应机理; C2(a 3 Пu)与 SO2反应是无能垒的过程, 反应速率表现出强的负温度依赖关系; 根据较大的双分子速率常数及其呈现的负温度效应我们认为, C2(a 3 Пu) 与 CS2反应遵循加成反应机理.

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“…C2 自由基与其他分子的反应动力学已被广泛研究, [20][21][22][23][24][25][26][27][28][29][30][31][33][34][35][36][37][38][39][40][41][42][43][44][45][46][47]…”

Section: 引言unclassified

Section: 实验unclassified

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Temperature Dependence of C2(a3Пu) Radical Reactions with Sulfur Bearing Molecules

Hu¹,

Pin-Hua²,

Zhang³

et al. 2014

Acta Physico-Chimica Sinica

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“…近十年来, C2自由基与碳氢化合物等物种的反应受到了更多的关注. [12][13][14][15][16][17][18][19][20][21][22][23][24][25] 从 2006 年开始, 反应温度效应的研究有转向低温的趋势, 但 C2自由基在高温方面的温度效应研究并不充分. 最近我们在 298-673 K 温度范围内研究了 C2(a 3 Пu)与碳氢化合物和氘代甲醇反应的温度效应.…”

Section: Vol29unclassified

“…最近我们在 298-673 K 温度范围内研究了 C2(a 3 Пu)与碳氢化合物和氘代甲醇反应的温度效应. [23][24][25] 在过去的 30 年中, C2(X 1 Σ + g )自由基与不饱和烃反应速率等的研究主要集中在常温和低温部分, 如 Pasternack 和 McDonald 26 使用 193 nm 多光子光解六氟-2-丁炔产生 C2(X 1 Σ + g ), 研究了它与乙烯在常温下的反应速率常数; Reisler 等 27 采用红外多光子解离 C2H3CN 或 C2HCl3 产生 C2(X 1 Σ + g ), 在常温下研究了它与乙烯、乙炔、丙二烯和苯的反应速率常数; Páramo 等 22 通过 193 nm 激光光解四氯乙烯产生 C2(…”

Section: Vol29unclassified

Temperature Dependence of C2(X1Σg+) in Reactions with Unsaturated Hydrocarbons

Hu¹,

中国科学院安徽光学精密机械研究所²,

Xie³

et al. 2013

Acta Physico-Chimica Sinica

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Bimolecular rate constants for the gas-phase reactions of C2(X 1 Σ + g) with unsaturated hydrocarbons C2H4 and C2H2 were measured over the temperature range 293-573 K by pulsed laser photolysis/laserinduced fluorescence (PLP-LIF). The rate constants, in the unit of cm 3 •molecule-1 •s-1 , can be fitted by the normal Arrhenius expressions: k(C2H4)=(1.16±0.10)×10-10 exp[(290.68±9.72)/T], and k(C2H2)=(1.36±0.02)× 10-10 exp[(263.85 ± 7.60)/T], where all error estimates are ± 2σ and represent the precision of the fit. The observed bimolecular rate constants along with the negative temperature dependences of k(T) allow us to conclude that the reactions of C2(X 1 Σ + g) with these unsaturated hydrocarbons in the temperature range 293-573 K proceed via an addition mechanism.

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Temperature Dependence of Reactions of C<sub>2</sub>(<em>a</em><sup>3</sup><em>Π</em><sub>u</sub>) Radical with Several Unsaturated Hydrocarbons

Cited by 2 publications

References 17 publications

Temperature Dependence of C<sub>2</sub>(<em>a</em><sup>3</sup><em>П</em><sub>u</sub>) Radical Reactions with Sulfur Bearing Molecules

Temperature Dependence of C<sub>2</sub>(<em>a</em><sup>3</sup><em>П</em><sub>u</sub>) Radical Reactions with Sulfur Bearing Molecules

Temperature Dependence of C<sub>2</sub>(<em>X</em><sup>1</sup><em>Σ</em><sub>g</sub><sup>+</sup>) in Reactions with Unsaturated Hydrocarbons

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Temperature Dependence of Reactions of C<sub>2</sub>(<em>a</em><sup>3</sup><em>&Pi;</em><sub>u</sub>) Radical with Several Unsaturated Hydrocarbons

Cited by 2 publications

References 17 publications

Temperature Dependence of C<sub>2</sub>(<em>a</em><sup>3</sup><em>П</em><sub>u</sub>) Radical Reactions with Sulfur Bearing Molecules

Temperature Dependence of C<sub>2</sub>(<em>a</em><sup>3</sup><em>П</em><sub>u</sub>) Radical Reactions with Sulfur Bearing Molecules

Temperature Dependence of C<sub>2</sub>(<em>X</em><sup>1</sup><em>&Sigma;</em><sub>g</sub><sup>+</sup>) in Reactions with Unsaturated Hydrocarbons

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Temperature Dependence of Reactions of C<sub>2</sub>(<em>a</em><sup>3</sup><em>Π</em><sub>u</sub>) Radical with Several Unsaturated Hydrocarbons

Temperature Dependence of C<sub>2</sub>(<em>X</em><sup>1</sup><em>Σ</em><sub>g</sub><sup>+</sup>) in Reactions with Unsaturated Hydrocarbons