Hansen Anne S, Huchmala Rachel M, Vogt Emil, Boyer Mark A, Bhagde Trisha, Vansco Michael F, Jensen Casper V, Kjærsgaard Alexander, Kjaergaard Henrik G, McCoy Anne B, Lester Marsha I
Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6323, USA.
Department of Chemistry, University of Washington, Seattle, Washington 98195-1700, USA.
J Chem Phys. 2021 Apr 28;154(16):164306. doi: 10.1063/5.0048020.
The infrared (IR) spectrum of tert-butyl hydroperoxide (TBHP) in the region of the first OH-stretching overtone has been observed under jet-cooled and thermal (300 K, 3 Torr) conditions at ∼7017 cm. The jet-cooled spectrum is recorded by IR multiphoton excitation with UV laser-induced fluorescence detection of OH radical products, while direct IR absorption is utilized under thermal conditions. Prior spectroscopic studies of TBHP and other hydroperoxides have shown that the OH-stretch and XOOH (X = H or C) torsion vibrations are strongly coupled, resulting in a double well potential associated with the torsional motion about the OO bond that is different for each of the OH-stretching vibrational states. A low barrier between the wells on the torsional potential results in tunneling split energy levels, which leads to four distinct transitions associated with excitation of the coupled OH-stretch-torsion states. In order to interpret the experimental results, two theoretical models are used that include the OH-stretch-torsion coupling in TBHP. Both methods are utilized to compute the vibrational transitions associated with the coupled OH-stretch-torsion states of TBHP, revealing the underlying transitions that compose the experimentally observed features. A comparison between theory and experiment illustrates the necessity for treatments that include OH-stretch and COOH torsion in order to unravel the spectral features observed in the first OH-stretching overtone region of TBHP.
在约7017厘米处,于喷射冷却和热(300 K,3托)条件下观测了叔丁基过氧化氢(TBHP)在首个OH伸缩倍频区域的红外(IR)光谱。喷射冷却光谱通过红外多光子激发并利用紫外激光诱导荧光检测OH自由基产物来记录,而在热条件下则采用直接红外吸收。先前对TBHP和其他氢过氧化物的光谱研究表明,OH伸缩振动和XOOH(X = H或C)扭转振动强烈耦合,导致围绕OO键的扭转运动存在双阱势,且该双阱势因每个OH伸缩振动状态而异。扭转势阱之间的低势垒导致隧穿分裂能级,这产生了与耦合的OH伸缩 - 扭转状态激发相关的四个不同跃迁。为了解释实验结果,使用了两种理论模型,其中包括TBHP中的OH伸缩 - 扭转耦合。两种方法都用于计算与TBHP耦合的OH伸缩 - 扭转状态相关的振动跃迁,揭示构成实验观测特征的潜在跃迁。理论与实验的比较表明,为了解开在TBHP首个OH伸缩倍频区域观测到的光谱特征,需要考虑OH伸缩和COOH扭转的处理方法。