O-Methyl m-Tolylcarbamothioate

The synthesis, spectroscopic, and crystallographic characterisation of the title compound, O-methyl m-tolylcarbamothioate, MeOC(=S)N(H)(m-tolyl) (1), are described. The crystallographic study confirms the structure determined by spectroscopy and shows the presence of the thioamide tautomer, a syn-disposition of the thione-S and thioamide-N-H atoms and, in the crystal, thioamide-N-H . . . S(thione) hydrogen bonding leading to an eight-membered { . . . HNCS}2 synthon.

Introducing small changes in molecules and monitoring their influence upon molecular packing is a key paradigm of crystal engineering, a discipline with the ultimate aim of controlling the manner by which molecules assemble in the crystalline state.In this context, thione molecules related to the title thiocarbamate derivative, that is, of general formula ROC(=S)N(H)R (for R, R = alkyl, aryl), have proven to readily afford crystals, making their systematic study amenable.A common feature of the molecular structure of many of these derivatives is a syn-disposition of the thione-S and thioamide-N-H atoms, enabling the formation of the eight-membered { . . .HNCS} 2 synthon in their crystals [1].Introducing substituents in the N-bound aryl rings, for example, p-C(=O)OMe, results in an anti-disposition of the thione-S and thioamide-N-H atoms, and the formation a linear supramolecular chain mediated by thioamide-N-H . . .O(carbonyl) hydrogen bonds in the crystal [2].In the same way, incorporating pyridyl residues in these molecules, for example, in (p-py)CH 2 OC(=S)N(H)Ph, also leads to an anti-disposition within the thioamide residue and zig-zag supramolecular chains via thioamide-N-H . . .N(pyridyl) hydrogen bonds [3].In continuation of studies in this area, herein the synthesis and spectroscopic ( 1 H and 13 C{ 1 H} NMR, UV and IR) characterisation of MeOC(=S)N(H)(m-tolyl) (1), Scheme 1, are described along with the determination of the crystal and molecular structures.Thiocarbamate 1 is a known compound with a CAS registry entry of 1087417-60-4.The synthesis and some characterisation data (melting point and microanalysis) of 1 has been described previously [4] and the molecule has been complexed to phosphanegold(I) in a crystallographic study, but no characterisation data for 1 were included [5].The compound may be purchased from two vendors, namely from Ambinter [6] and from the FCH Group, Latvia [7].

Introduction
Introducing small changes in molecules and monitoring their influence upon molecular packing is a key paradigm of crystal engineering, a discipline with the ultimate aim of controlling the manner by which molecules assemble in the crystalline state.In this context, thione molecules related to the title thiocarbamate derivative, that is, of general formula ROC(=S)N(H)R′ (for R, R′ = alkyl, aryl), have proven to readily afford crystals, making their systematic study amenable.A common feature of the molecular structure of many of these derivatives is a syn-disposition of the thione-S and thioamide-N-H atoms, enabling the formation of the eight-membered { … HNCS}2 synthon in their crystals [1].Introducing substituents in the N-bound aryl rings, for example, p-C(=O)OMe, results in an antidisposition of the thione-S and thioamide-N-H atoms, and the formation a linear supramolecular chain mediated by thioamide-N-H … O(carbonyl) hydrogen bonds in the crystal [2].In the same way, incorporating pyridyl residues in these molecules, for example, in (p-py)CH2OC(=S)N(H)Ph, also leads to an anti-disposition within the thioamide residue and zig-zag supramolecular chains via thioamide-N-H … N(pyridyl) hydrogen bonds [3].In continuation of studies in this area, herein the synthesis and spectroscopic ( 1 H and 13 C{ 1 H} NMR, UV and IR) characterisation of MeOC(=S)N(H)(mtolyl) (1), Scheme 1, are described along with the determination of the crystal and molecular structures.Thiocarbamate 1 is a known compound with a CAS registry entry of 1087417-60-4.The synthesis and some characterisation data (melting point and microanalysis) of 1 has been described previously [4] and the molecule has been complexed to phosphanegold(I) in a crystallographic study, but no characterisation data for 1 were included [5].The compound may be purchased from two vendors, namely from Ambinter [6] and from the FCH Group, Latvia [7].

Results and Discussion
The title compound, 1, was prepared from the facile and stoichiometric reaction of m-tolyl isothiocyanate and NaOH conducted in methanol solution.Compound 1 is low-melting point solid that was characterised by IR, NMR, and UV spectroscopy (see Supplementary Materials for original spectra).Crystals of 1 formed in the mother liquor when kept in a refrigerator, that is, at ca. 4 • C. The isolated crystals melted almost immediately upon removal from the mother liquor under ambient conditions.This behaviour contrasts a previous literature report, where a melting point of 43 • C was reported [4].In the present study, crystals were analysed immediately before they began to melt.This behaviour precluded the recording of a melting point and the determination of microanalytical data.In the IR, the expected bands due to ν(N-H) (3182 (br)), ν(C-N) (1444 (vs)), ν(C = S) (1203 (vs)), and ν(C-O) (1090 (m)) were observed.The 1 H and 13 C{ 1 H} NMR data showed the expected resonances and integration ( 1 H).The quaternary carbon-C1 atom exhibited a 13 C{ 1 H} resonance at δ 189.6.A single band at ca. 275 nm was observed in the UV spectrum which is ascribed to a π-π* transition [8].
The molecular structure as determined by X-ray crystallography is shown in Figure 1 and selected geometric parameters are included in the caption.The C1=S1 and C1-N1 bond lengths confirm the presence of the thioamide tautomer.The S1, O1, N1, and C1 atoms of the chromophore are strictly planar, exhibiting a r.m.s.deviation of 0.0051 Å with the appended C2 and C9 atoms, respectively, lying 0.024(2) and 0.086(3) Å out of and to one side of the plane.The variations in the bond angles about the quaternary-C1 atom follow the expected trends with those involving the doubly-bonded sulfur atom being systematically wider by ca. 12 • than O1-C1-N1.There is a significant twist in the molecule as seen in the value of the C1-N1-C2-C7 torsion angle of 67.8(2) • , and this is manifested in a dihedral angle of 68.12(5) • between the thioamide and m-tolyl residues.

Results and Discussion
The title compound, 1, was prepared from the facile and stoichiometric reaction of m-tolyl isothiocyanate and NaOH conducted in methanol solution.Compound 1 is low-melting point solid that was characterised by IR, NMR, and UV spectroscopy (see Supplementary Materials for original spectra).Crystals of 1 formed in the mother liquor when kept in a refrigerator, that is, at ca. 4 °C .The isolated crystals melted almost immediately upon removal from the mother liquor under ambient conditions.This behaviour contrasts a previous literature report, where a melting point of 43 °C was reported [4].In the present study, crystals were analysed immediately before they began to melt.This behaviour precluded the recording of a melting point and the determination of microanalytical data.
The molecular structure as determined by X-ray crystallography is shown in Figure 1 and selected geometric parameters are included in the caption.The C1=S1 and C1-N1 bond lengths confirm the presence of the thioamide tautomer.The S1, O1, N1, and C1 atoms of the chromophore are strictly planar, exhibiting a r.m.s.deviation of 0.0051 Å with the appended C2 and C9 atoms, respectively, lying 0.024(2) and 0.086(3) Å out of and to one side of the plane.The variations in the bond angles about the quaternary-C1 atom follow the expected trends with those involving the doubly-bonded sulfur atom being systematically wider by ca.12° than O1-C1-N1.There is a significant twist in the molecule as seen in the value of the C1-N1-C2-C7 torsion angle of 67.8(2)°, and this is manifested in a dihedral angle of 68.12(5)° between the thioamide and m-tolyl residues.2a.The chains pack into a three-dimensional architecture without directional interactions between them with the only contact marginally less than the sum of the van der Waals radii (3.00 Å [9]) is an inter-chain m-tolyl-C7-H7 … S1 contact of 2.91 Å ; a view of the unit cell contents is shown in Figure 2b.2a.The chains pack into a three-dimensional architecture without directional interactions between them with the only contact marginally less than the sum of the van der Waals radii (3.00 Å [9]) is an inter-chain m-tolyl-C7-H7 . . .S1 contact of 2.91 Å; a view of the unit cell contents is shown in Figure 2b.As mentioned in the Introduction, systematic structural studies underpin crystal engineering endeavours as in order to control the way molecules self-assemble in crystals, a detailed knowledge of the intermolecular interactions they form is crucial.With this in mind, the relationship between 1 and closely related literature precedents were evaluated.In the o-tolyl derivative [10], one molecule comprises the crystallographic asymmetric unit, but, in the p-tolyl crystal [11], two crystallographically independent but conformationally similar molecules comprise the asymmetric unit.As seen from the overlay diagram in Figure 3, the overlap between the central S1,O1,N1,C1 chromophore and the pendent methyl group is close between 1, the o-tolyl derivative [10] and each of the independent molecules of the p-tolyl derivative [11].However, significant conformational differences exist between the tolyl groups.Crucially, the syn disposition is retained in all four molecules enabling the formation of the thioamide-N-H … S(thione) hydrogen bonds in their respective crystals.The robust nature of the eight-membered { … HNCS}2 synthon thus formed has been commented upon in a recent survey of thiocarbamate structures [1].This is only disrupted when other, more electron-rich acceptors, for example, carbonyl-oxygen [2] and pyridyl-nitrogen [3], are present in the R and/or R′ substituents of ROC(=S)N(H)R′.In conclusion, the X-ray crystal structure determination of 1, revealing a syn disposition of the thione-S and thioamide-H atoms in the molecular structure, and thioamide-N-H … S(thione) hydrogen As mentioned in the Introduction, systematic structural studies underpin crystal engineering endeavours as in order to control the way molecules self-assemble in crystals, a detailed knowledge of the intermolecular interactions they form is crucial.With this in mind, the relationship between 1 and closely related literature precedents were evaluated.In the o-tolyl derivative [10], one molecule comprises the crystallographic asymmetric unit, but, in the p-tolyl crystal [11], two crystallographically independent but conformationally similar molecules comprise the asymmetric unit.As seen from the overlay diagram in Figure 3, the overlap between the central S1,O1,N1,C1 chromophore and the pendent methyl group is close between 1, the o-tolyl derivative [10] and each of the independent molecules of the p-tolyl derivative [11].However, significant conformational differences exist between the tolyl groups.Crucially, the syn disposition is retained in all four molecules enabling the formation of the thioamide-N-H . . .S(thione) hydrogen bonds in their respective crystals.The robust nature of the eight-membered { . . .HNCS} 2 synthon thus formed has been commented upon in a recent survey of thiocarbamate structures [1].This is only disrupted when other, more electron-rich acceptors, for example, carbonyl-oxygen [2] and pyridyl-nitrogen [3], are present in the R and/or R substituents of ROC(=S)N(H)R .As mentioned in the Introduction, systematic structural studies underpin crystal engineering endeavours as in order to control the way molecules self-assemble in crystals, a detailed knowledge of the intermolecular interactions they form is crucial.With this in mind, the relationship between 1 and closely related literature precedents were evaluated.In the o-tolyl derivative [10], one molecule comprises the crystallographic asymmetric unit, but, in the p-tolyl crystal [11], two crystallographically independent but conformationally similar molecules comprise the asymmetric unit.As seen from the overlay diagram in Figure 3, the overlap between the central S1,O1,N1,C1 chromophore and the pendent methyl group is close between 1, the o-tolyl derivative [10] and each of the independent molecules of the p-tolyl derivative [11].However, significant conformational differences exist between the tolyl groups.Crucially, the syn disposition is retained in all four molecules enabling the formation of the thioamide-N-H … S(thione) hydrogen bonds in their respective crystals.The robust nature of the eight-membered { … HNCS}2 synthon thus formed has been commented upon in a recent survey of thiocarbamate structures [1].This is only disrupted when other, more electron-rich acceptors, for example, carbonyl-oxygen [2] and pyridyl-nitrogen [3], are present in the R and/or R′ substituents of ROC(=S)N(H)R′.In conclusion, the X-ray crystal structure determination of 1, revealing a syn disposition of the thione-S and thioamide-H atoms in the molecular structure, and thioamide-N-H … S(thione) hydrogen In conclusion, the X-ray crystal structure determination of 1, revealing a syn disposition of the thione-S and thioamide-H atoms in the molecular structure, and thioamide-N-H . . .S(thione) hydrogen bonding leading to eight-membered { . . .HNCS} 2 synthons in the molecular packing, is consistent with literature expectation.

General Information
All chemicals and solvents were sourced from Merck and used without further purification.IR spectra were measured on a Bruker Vertex 70v FTIR spectrophotometer from 4000 to 400 cm −1 ; abbreviations: br, broad; m, medium; vs, very strong. 1 H and 13 C{ 1 H} NMR spectra were recorded in CDCl 3 solution on a Bruker Ascend 400 MHz NMR spectrometer with chemical shifts relative to tetramethylsilane; abbreviations for NMR assignments: s, singlet; m, multiplet; br, broad.The optical absorption spectra were obtained from an acetonitrile solution of 1.0 × 10 −6 M in the range 200-800 nm on a Shimadzu UV-3600 plus UV/VIS/NIR spectrophotometer.

Crystallography
Intensity data for 1 were measured at T = 100(2) K on an Agilent Technologies SuperNova Dual diffractometer fitted with Mo Kα radiation so that θ max was 27.5 • .Data reduction, including absorption correction, was accomplished with CrysAlis Pro [12].Of the 3380 reflections measured, 3380 were unique (R int = 0.022), and of these, 1756 data satisfied the I ≥ 2σ(I) criterion of observability.The structure was solved by direct methods [13] and refined (anisotropic displacement parameters and C-bound H atoms in the riding model approximation; the N-bound H atom was refined without restraint) on F 2 [14].A weighting scheme of the form w = 1/(σ 2 (F o 2 ) + (0.043P) 2 + 0.163P) was introduced, where P = (F o 2 + 2F c 2 )/3.Based on the refinement of 115 parameters, the final values of R