物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2015年
1期
23-31
,共9页
赵春红%佟胜睿%葛茂发%孙政
趙春紅%佟勝睿%葛茂髮%孫政
조춘홍%동성예%갈무발%손정
结构%HeI光电子能谱%光电离质谱%理论计算%电离和解离过程
結構%HeI光電子能譜%光電離質譜%理論計算%電離和解離過程
결구%HeI광전자능보%광전리질보%이론계산%전리화해리과정
Structure%HeI photoelectron spectroscopy%Photoionization mass spectroscopy%Theoretical calculation%Ionization and dissociation processes
由于拥有―C(O)S―和―NCO基团, FC(O)SNCO的分子和电子结构是非常有趣的.利用FC(O)SCl和AgNCO制备了FC(O)SNCO,并利用HeI光电子能谱(PES)、光电离质谱(PIMS)以及理论计算研究了其分子和电子结构.通过将实验、理论计算以及自然键轨道(NBO)分析结合起来,获得了FC(O)SNCO的最稳定分子构型.利用外壳层格林函数(OVGF)方法以及与相似化合物的比较,对其光电子能谱进行了指认.理论计算表明,对于中性分子最稳定的构型为syn-syn 非平面构型,而电离后的离子最稳定构型为syn-syn平面构型.实验结果表明,第一电离能来自于 S 的孤对电子轨道,为10.33 eV.第二至第六电离能分别为12.03、13.23、13.77、14.78、15.99 eV,并对这些电离能进行了指认.在光电离质谱中产生了六个质谱峰,分别为 SN+、FC(O)+、SNCO+、FC(O)SN+、C(O)SNCO+、FC(O)SNCO+?,其中 FC(O)SNCO+?的峰是最强峰.结合HeI光电子能谱和理论计算,对PIMS进行了分析,并研究了可能的电离和解离过程并对其进行了讨论.
由于擁有―C(O)S―和―NCO基糰, FC(O)SNCO的分子和電子結構是非常有趣的.利用FC(O)SCl和AgNCO製備瞭FC(O)SNCO,併利用HeI光電子能譜(PES)、光電離質譜(PIMS)以及理論計算研究瞭其分子和電子結構.通過將實驗、理論計算以及自然鍵軌道(NBO)分析結閤起來,穫得瞭FC(O)SNCO的最穩定分子構型.利用外殼層格林函數(OVGF)方法以及與相似化閤物的比較,對其光電子能譜進行瞭指認.理論計算錶明,對于中性分子最穩定的構型為syn-syn 非平麵構型,而電離後的離子最穩定構型為syn-syn平麵構型.實驗結果錶明,第一電離能來自于 S 的孤對電子軌道,為10.33 eV.第二至第六電離能分彆為12.03、13.23、13.77、14.78、15.99 eV,併對這些電離能進行瞭指認.在光電離質譜中產生瞭六箇質譜峰,分彆為 SN+、FC(O)+、SNCO+、FC(O)SN+、C(O)SNCO+、FC(O)SNCO+?,其中 FC(O)SNCO+?的峰是最彊峰.結閤HeI光電子能譜和理論計算,對PIMS進行瞭分析,併研究瞭可能的電離和解離過程併對其進行瞭討論.
유우옹유―C(O)S―화―NCO기단, FC(O)SNCO적분자화전자결구시비상유취적.이용FC(O)SCl화AgNCO제비료FC(O)SNCO,병이용HeI광전자능보(PES)、광전리질보(PIMS)이급이론계산연구료기분자화전자결구.통과장실험、이론계산이급자연건궤도(NBO)분석결합기래,획득료FC(O)SNCO적최은정분자구형.이용외각층격림함수(OVGF)방법이급여상사화합물적비교,대기광전자능보진행료지인.이론계산표명,대우중성분자최은정적구형위syn-syn 비평면구형,이전리후적리자최은정구형위syn-syn평면구형.실험결과표명,제일전리능래자우 S 적고대전자궤도,위10.33 eV.제이지제륙전리능분별위12.03、13.23、13.77、14.78、15.99 eV,병대저사전리능진행료지인.재광전리질보중산생료륙개질보봉,분별위 SN+、FC(O)+、SNCO+、FC(O)SN+、C(O)SNCO+、FC(O)SNCO+?,기중 FC(O)SNCO+?적봉시최강봉.결합HeI광전자능보화이론계산,대PIMS진행료분석,병연구료가능적전리화해리과정병대기진행료토론.
(Fluorocarbonyl) sulfenyl isocyanate (FC(O)SNCO) contains ―C(O)S― and ―NCO groups, so has an interesting electronic and molecular structure. FC(O)SNCO was prepared by the metathesis of FC(O)SCl and AgNCO. HeI photoelectron spectroscopy (PES), photoionization mass spectrometry (PIMS), and theoretical calculations were used to study the molecular and electronic structure of FC(O)SNCO. The experimental, theoretical calculations, and NBO results indicated the most stable conformer of FC(O)SNCO. In addition to the outer-valence Green′s function calculation, the PES spectrum was assigned from analogous studies of similar molecules. The syn-syn non-planar conformer (δFCSN=180°) with C1 symmetry was favored by the neutral molecule, and changed to the syn-syn planar structure with Cs symmetry after ionization. The experimental first vertical ionization potential mainly from the S lone pair orbital was 10.33 eV. The second to sixth ionization potentials of FC(O)SNCO were 12.44, 13.23, 13.77, 14.78, and 15.99 eV, respectively, and were also assigned. The FC(O)+, SN+, FC(O)SN+, SNCO+, C(O)SNCO+, and FC(O)SNCO+? peaks were observed in the PIMS spectrum, the highest intensity of which was FC(O)SNCO+?. The PIMS data were analyzed based on the PES and theoretical results. Possible ionization and dissociation processes are discussed.
