Exploring the rare S—H...S hydrogen bond using charge density analysis in isomers of mercaptobenzoic acid

Pavan, Mysore S.; Sarkar, Sounak; Row, Tayur N. Guru

doi:10.1107/s2052520617008344

Cited by 14 publications

(23 citation statements)

References 55 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Given that the typical charge density and Laplacian values for asingle CÀCbond are ca. 1.6 e À3 and À10 to À12 e À5 ,this 15 Nand 13 Cisotropic chemical shifts, and the GIPAW-DFT calculated 1 J NC couplings and isotropic shifts. The DFT isotropic shifts were determined using d iso = À[s cal Às ref ], where s ref = 170 ppm for 13 Cand À153 ppm for 15 N. [19] Charge Density Experimental MAS NMR [20] 2.292(4) 2.245 0.33 2.26 --2.292 0.61 À314 183 S2 [21] 1.993( 3 ------2.167 1.94 --100 K [8] ------1.750 7.04 --…”

Section: Resultsmentioning

confidence: 75%

Mapping of N−C Bond Formation from a Series of Crystalline Peri‐Substituted Naphthalenes by Charge Density and Solid‐State NMR Methodologies

et al. 2021

View full text Add to dashboard Cite

A combination of charge density studies and solid state nuclear magnetic resonance (NMR) 1JNC coupling measurements supported by periodic density functional theory (DFT) calculations is used to characterise the transition from an n–π* interaction to bond formation between a nucleophilic nitrogen atom and an electrophilic sp2 carbon atom in a series of crystalline peri‐substituted naphthalenes. As the N⋅⋅⋅C distance reduces there is a sharp decrease in the Laplacian derived from increasing charge density between the two groups at ca. N⋅⋅⋅C = 1.8 Å, with the periodic DFT calculations predicting, and heteronuclear spin‐echo NMR measurements confirming, the 1JNC couplings of ≈3–6 Hz for long C−N bonds (1.60–1.65 Å), and 1JNC couplings of <1 Hz for N⋅⋅⋅C >2.1 Å.

show abstract

Section: Resultsmentioning

confidence: 75%

Mapping of N−C Bond Formation from a Series of Crystalline Peri‐Substituted Naphthalenes by Charge Density and Solid‐State NMR Methodologies

et al. 2021

View full text Add to dashboard Cite

show abstract

“…1.6 e À3 and À10 to À12 e À5 ,this 15 Nand 13 Cisotropic chemical shifts, and the GIPAW-DFT calculated 1 J NC couplings and isotropic shifts. The DFT isotropic shifts were determined using d iso = À[s cal Às ref ], where s ref = 170 ppm for 13 Cand À153 ppm for 15 N. [19] Charge Density Experimental MAS NMR [20] 2.292(4) 2.245 0.33 2.26 --2.292 0.61 À314 183 S2 [21] 1.993( 3 ------2.167 1.94 --100 K [8] ------1.750 7.04 -suggests that the double bond in 6 has not been fully transformed into as ingle (s)b ond. [22] There is also ac hange in the ellipticity of this bond, derived from the CD determination (Section 2, ESI), from 0.29-0.32 for 1 and 3,t o0 .13-0.17 for 4-6 which could be interpreted as areduction in the p component of the bonding,t hough this approach has been questioned since there is no direct connection between the topological analysis and an orbital based description of bonding.…”

Section: Resultsmentioning

confidence: 75%

“…Thec harge density,d etermined from X-ray diffraction measurements,m aps the valence electron distributions between the interacting groups.T he corresponding crystal structures for S1-S2 and 1-6 have been used to calculate, via DFT,t he 1 J NC couplings between 15 Na nd 13 Ca toms located at either end of the peri interaction/partial bond to characterise the interaction across the Me 2 N•••C bridge.T his use of DFT to predict the NMR parameters is compared to experimental measurements made on naphthalenes 2, 3, 4 and 6 in which the two interacting/bonding atoms are both isotopically labelled (Scheme S1, ESI).…”

Section: Densityf Unctional Theorymentioning

confidence: 99%

“…[28] Amechanism for measuring the 1 J coupling in the solid-state is to utilise the spin-echo sequence which refocuses the evolution of all the terms that appear as offsets,inparticular those that are caused by adistribution of chemical shifts.T he use of spin echoes in an NMR experiment allows the detection of chemical shift separated J couplings even when inhomogeneous broadening means it is not directly visible in the observed spectrum. [29] Thep resence of other highly coupled nuclei with large quadrupolar couplings (such as 14 No r 17 O) can also cause dephasing of the signal and prevent accurate measurements of the J-coupling,t herefore the measurement was observed from the perspective of the 15 Nnuclei which is solely coupled to 99 % 13 C(I = 1 = 2 ), whereas the more sensitive 13 Ciscoupled to 60 % 15 N( I = 1 = 2 )a nd 40 %q uadrupolar 14 N( I = 1), which would cause greater dephasing and overestimation of the 1 J coupling.W eh ave previously discussed am ethodology of utilizing periodic DFT calculations on molecular structures determined by single-crystal X-ray crystallography to determine 1 J couplings which are validated with spin-echo solidstate NMR experiments.H ere,w ee xpand this methodology to compare the charge density maps with NMR observations. [29] Theh eteronuclear 15 N- 13 Cs pin-echo decay for the aldehyde 2 and dinitrile 3 (Figure 2a and b) both show very shallow exponential decays which are indicative of narrow resonances that are not broadened by 1 J NC coupling contributions.Agreen simulated fit is given for the T 2 decays,with the blue SIMPSON [30] simulation of the periodic DFT determined 1 J NC coupling,a nd their product is given in red.…”

Section: Densityf Unctional Theorymentioning

confidence: 99%

“…Them ost closely-related charge density studies on peri-systems relate to proton sponges and al ong (2.700 )M e 2 N•••CONMe 2 interaction, whilst investigations into Cl•••Cl interactions and extended hypervalent bonding in S•••S À S•••S and S•••Se À Se•••S situations have also been completed. [14,15] Solid-state 1 J coupling studies between peri chalcogenide elements have also been made. [16] However, no combined charge density/ 1 Jcoupling studies on crystalline peri-naphthalenes have been reported.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Mapping of N−C Bond Formation from a Series of Crystalline Peri‐Substituted Naphthalenes by Charge Density and Solid‐State NMR Methodologies

et al. 2021

View full text Add to dashboard Cite

Ac ombination of charge density studies and solid state nuclear magnetic resonance (NMR) 1 J NC coupling measurements supported by periodic density functional theory (DFT) calculations is used to characterise the transition from an n-p*interaction to bond formation between anucleophilic nitrogen atom and an electrophilic sp 2 carbon atom in aseries of crystalline peri-substituted naphthalenes.A st he N•••C distance reduces there is as harp decrease in the Laplacian derived from increasing charge density between the two groups at ca. N•••C = 1.8 ,w ith the periodic DFT calculations predicting,a nd heteronuclear spin-echo NMR measurements confirming,t he 1 J NC couplings of % 3-6 Hz for long C À N bonds (1.60-1.65 ), and 1 J NC couplings of < 1Hzf or N•••C > 2.1 .

show abstract

Infrared Spectroscopy of Ethanethiol Monomers and Dimers at MP2 Level: Characterizing the Dimer Formation and Hydrogen Bond

Brito,

Aquino,

dos Santos Politi

et al. 2024

J Comput Chem

View full text Add to dashboard Cite

Ethanethiol, also known as ethyl mercaptan, is an organosulfur compound that appears as a colorless liquid with a distinctive odor. It has been detected in the interstellar medium, and its self‐association has been the subject of a few known experimental studies, where the SH vibrational mode was used. However, unlike the analogous ethanol dimer, the ethanethiol dimer has not been thoroughly explored theoretically. In this study, ethanethiol and dimers were investigated using the MP2 method with various basis sets to determine the properties and stability of these structures. For the monomer, both trans and gauche structures were computed, with the gauche conformer being more stable, consistent with the available data in the literature. Local mode decomposition analysis of monomers showed that the CH2 rocking mode, associated with the CSH bending, is present only for the gauche isomer aligning with the experimental assignments. Furthermore, eight stable dimer configurations were identified and categorized into three groups: trans–trans, gauche–gauche, and trans–gauche isomers. Among these, the trans–gauche isomer was found to be the most stable. Dispersion is the dominant term for the ethanethiol dimer.

show abstract

Exploring the rare S—H...S hydrogen bond using charge density analysis in isomers of mercaptobenzoic acid

Cited by 14 publications

References 55 publications

Mapping of N−C Bond Formation from a Series of Crystalline Peri‐Substituted Naphthalenes by Charge Density and Solid‐State NMR Methodologies

Mapping of N−C Bond Formation from a Series of Crystalline Peri‐Substituted Naphthalenes by Charge Density and Solid‐State NMR Methodologies

Mapping of N−C Bond Formation from a Series of Crystalline Peri‐Substituted Naphthalenes by Charge Density and Solid‐State NMR Methodologies

Infrared Spectroscopy of Ethanethiol Monomers and Dimers at MP2 Level: Characterizing the Dimer Formation and Hydrogen Bond

Contact Info

Product

Resources

About