物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2012年
7期
1623-1629
,共7页
冯丽霞%靳玲侠%王渭娜%王文亮
馮麗霞%靳玲俠%王渭娜%王文亮
풍려하%근령협%왕위나%왕문량
C2H3%CH3F%氢抽提反应%QCISD(T)//B3LYP%速率常数
C2H3%CH3F%氫抽提反應%QCISD(T)//B3LYP%速率常數
C2H3%CH3F%경추제반응%QCISD(T)//B3LYP%속솔상수
C2H3%CH3F%Hydrogen abstraction reaction%QCISD(T)UB3LYP%Rate constant
采用双水平直接动力学方法对C2H3与CH3F氢抽提反应进行了研究.在QCISD(T)/6-311 ++G(d,p)//B3LYP/6-311G(d,p)水平上,计算的三个反应通道R1、R2和R3的能垒(△P)分别为43.2、43.9和44.1 kJ·mol-1,反应热为-38.2 kJ· mol-1此外,利用传统过渡态理论(TST)、正则变分过渡态理论(CVT)和包含小曲率隧道效应(SCT)的CVT,分别计算了200-3000 K温度范围内反应的速率常数KTST、KCVT和KCVT/SCT.结果表明:(1)三个氢抽提反应通道的速率常数随温度的增加而增大,其中变分效应的影响可以忽略,隧道效应则在低温段影响显著;(2)R1反应是主反应通道,但随着温度的升高,R2反应的竞争力增大,而R3反应对总速率常数的影响很小.
採用雙水平直接動力學方法對C2H3與CH3F氫抽提反應進行瞭研究.在QCISD(T)/6-311 ++G(d,p)//B3LYP/6-311G(d,p)水平上,計算的三箇反應通道R1、R2和R3的能壘(△P)分彆為43.2、43.9和44.1 kJ·mol-1,反應熱為-38.2 kJ· mol-1此外,利用傳統過渡態理論(TST)、正則變分過渡態理論(CVT)和包含小麯率隧道效應(SCT)的CVT,分彆計算瞭200-3000 K溫度範圍內反應的速率常數KTST、KCVT和KCVT/SCT.結果錶明:(1)三箇氫抽提反應通道的速率常數隨溫度的增加而增大,其中變分效應的影響可以忽略,隧道效應則在低溫段影響顯著;(2)R1反應是主反應通道,但隨著溫度的升高,R2反應的競爭力增大,而R3反應對總速率常數的影響很小.
채용쌍수평직접동역학방법대C2H3여CH3F경추제반응진행료연구.재QCISD(T)/6-311 ++G(d,p)//B3LYP/6-311G(d,p)수평상,계산적삼개반응통도R1、R2화R3적능루(△P)분별위43.2、43.9화44.1 kJ·mol-1,반응열위-38.2 kJ· mol-1차외,이용전통과도태이론(TST)、정칙변분과도태이론(CVT)화포함소곡솔수도효응(SCT)적CVT,분별계산료200-3000 K온도범위내반응적속솔상수KTST、KCVT화KCVT/SCT.결과표명:(1)삼개경추제반응통도적속솔상수수온도적증가이증대,기중변분효응적영향가이홀략,수도효응칙재저온단영향현저;(2)R1반응시주반응통도,단수착온도적승고,R2반응적경쟁력증대,이R3반응대총속솔상수적영향흔소.
A dual-level direct dynamics method was employed to study the hydrogen abstraction reaction of C2H3 with CH3F.The calculated potential barriers (△E*) of reaction channels R1,R2,and R3 are 43.2,43.9,and 44.1 kJ· mol-1,respectively,and the reaction energy is -38.2 kJ· mol-1 at the QCISD(T)/6-311++G(d,p)//B3LYP/6-311G(d,p) level.In addition,the rate constants of the reaction were evaluated by means of the conventional transition-state theory (TST) and canonical variational transition-state theory (CVT) with or without small curvature tunneling corrections (SCT) over a wide temperature range of 200-3000 K.The results indicate that the rate constants of the three hydrogen abstraction reaction channels exhibit a positive temperature dependence,in which the variational effect is negligible for all the channels,whereas the tunneling effect is considerable at lower temperatures.Moreover,the reaction R1 is the dominant channel.Reaction R2 competes kinetically with R1 as the temperature increases,whereas the contribution from R3 is small.
