Accuracy of Rotational Parameters Predicted by High-Level Quantum-Chemical Calculations: Case Study of Sulfur-Containing Molecules of Astrochemical Interest

Alessandrini, Silvia; Gauß, Jürgen; Puzzarini, Cristina

doi:10.1021/acs.jctc.8b00695

Cited by 49 publications

(53 citation statements)

References 97 publications

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“…According to Figure 6, in addition to possible difficulties in producing these radicals inside the spectrometer cell, the assignment of their spectra can be complicated by the fact that the most intense transitions lie well in the submillimeterwave region. In fact, due to the propagation of the errors associated to the computed parameters when increasing the value of J, the uncertainties affecting the predicted transition values can be as large as 300-500 MHz (see, e.g., Alessandrini et al (2018)). However, one can rely on characteristic hyperfine pattern for helping the assignment procedure.…”

Section: Spectroscopic Characterization Of the Ch 2 Nh 2 And Ch 3 Nh mentioning

confidence: 99%

A twist on the reaction of the CN radical with methylamine in the interstellar medium: new hints from a state-of-the-art quantum-chemical study

Puzzarini

Salta

Tasinato

et al. 2020

Monthly Notices of the Royal Astronomical Society

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Despite the fact that the majority of current models assume that interstellar complex organic molecules (iCOMs) are formed on dust–grain surfaces, there is some evidence that neutral gas-phase reactions play an important role. In this paper, we investigate the reaction occurring in the gas phase between methylamine (CH3NH2) and the cyano (CN) radical, for which only fragmentary and/or inaccurate results have been reported to date. This case study allows us to point out the pivotal importance of employing quantum-chemical calculations at the state of the art. Since the two major products of the CH3NH2 + CN reaction, namely the CH3NH and CH2NH2 radicals, have not been spectroscopically characterized yet, some effort has been made for filling this gap.

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Section: Spectroscopic Characterization Of the Ch 2 Nh 2 And Ch 3 Nh mentioning

confidence: 99%

A twist on the reaction of the CN radical with methylamine in the interstellar medium: new hints from a state-of-the-art quantum-chemical study

Puzzarini

Salta

Tasinato

et al. 2020

Monthly Notices of the Royal Astronomical Society

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“… 2 , 5 , 73 , 74 An example is provided by the experimental investigation on the rotational spectrum of propargylimine, which also led to its detection in the interstellar medium. 54 In that work, the spectroscopic study was supported by quantum-chemical calculations, with equilibrium rotational constants obtained by means of the so-called “CCSD(T)/CBS + CV” composite scheme, 19 , 20 whose accuracy has been tested in refs ( 2 ) and ( 73 ). This composite scheme exploits the CCSD(T) method extrapolated to the complete basis set (CBS) limit (within the fc approximation) and incorporates the core-valence (CV) correlation correction.…”

Section: Resultsmentioning

confidence: 99%

Extending the Applicability of the Semi-experimental Approach by Means of “Template Molecule” and “Linear Regression” Models on Top of DFT Computations

et al. 2021

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The accurate determination of equilibrium structures for isolated molecules plays a central role in the evaluation and interpretation of stereoelectronic, thermodynamic, and spectroscopic properties. For small semi-rigid systems, state-of-the-art quantum-chemical computations can rival the most sophisticated experimental results. For larger molecules, cheaper yet accurate approaches need to be defined. The double-hybrid rev-DSD-PBEP86 functional already delivers remarkable results that can be further improved by means of a “Lego brick” model. This is based on the idea that a molecular system can be seen as formed by different fragments (the “Lego bricks”), whose accurate semi-experimental (SE) equilibrium geometries are available. The template molecule (TM) approach can be used to account for the modifications occurring when going from the isolated fragment to the molecular system under investigation, with the linear regression (LR) model employed to correct the linkage between the different fragments. The resulting TM-SE_LR approach has been tested with respect to available SE equilibrium structures and rotational constants. Indeed, the latter parameters straightforwardly depend on the equilibrium geometry of the system under consideration. The main outcome of our study is the reliability, robustness, and accuracy of this novel approach. The molecular systems considered for benchmarking the TM-SE_LR scheme are those formally issued from addition/elimination reactions of nucleophilic unsaturated radicals (e.g., CN, C2H, and phenyl) to alkenes, imines, and aldehydes, whose rotational spectra have been investigated, but accurate structural determinations are not yet available.

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“…According to the literature on this topic (e.g., Refs. [ 14 , 21 , 65 ]), bond distances are accurate to 1–2 mÅ and angles to 0.3

. However, the true assessment of the accuracy of the computed geometries can only be addressed in comparison with experimental data.…”

Section: Discussionmentioning

confidence: 99%

Ab Initio Study of Fine and Hyperfine Interactions in Triplet POH

et al. 2022

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Phosphorous-containing molecules have a great relevance in prebiotic chemistry in view of the fact that phosphorous is a fundamental constituent of biomolecules, such as RNA, DNA, and ATP. Its biogenic importance has led astrochemists to investigate the possibility that P-bearing species could have formed in the interstellar medium (ISM) and subsequently been delivered to early Earth by rocky bodies. However, only two P-bearing molecules have been detected so far in the ISM, with the chemistry of interstellar phosphorous remaining poorly understood. Here, in order to shed further light on P-carriers in space, we report a theoretical spectroscopic characterisation of the rotational spectrum of POH in its 3A″ ground electronic state. State-of-the-art coupled-cluster schemes have been employed to derive rotational constants, centrifugal distortion terms, and most of the fine and hyperfine interaction parameters, while the electron spin–spin dipolar coupling has been investigated using the multi-configuration self-consistent-field method. The computed spectroscopic parameters have been used to simulate the appearance of triplet POH rotational and ro-vibrational spectra in different conditions, from cold to warm environments, either in gas-phase experiments or in molecular clouds. Finally, we point out that the predicted hyperfine structures represent a key pattern for the recognition of POH in laboratory and interstellar spectra.

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Accuracy of Rotational Parameters Predicted by High-Level Quantum-Chemical Calculations: Case Study of Sulfur-Containing Molecules of Astrochemical Interest

Cited by 49 publications

References 97 publications

A twist on the reaction of the CN radical with methylamine in the interstellar medium: new hints from a state-of-the-art quantum-chemical study

A twist on the reaction of the CN radical with methylamine in the interstellar medium: new hints from a state-of-the-art quantum-chemical study

Extending the Applicability of the Semi-experimental Approach by Means of “Template Molecule” and “Linear Regression” Models on Top of DFT Computations

Ab Initio Study of Fine and Hyperfine Interactions in Triplet POH

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