Thiazyl fluoride: Difference between revisions

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	{{chembox		{{chembox
			\| Verifiedfields = changed
⚫	\| verifiedrevid = ~~401630817~~
			\| Watchedfields = changed
		⚫	\| verifiedrevid = 470606393
	\| ImageFile = Thiazyl-fluoride-2D-dimensions.png		\| ImageFile = Thiazyl-fluoride-2D-dimensions.png
	\| ImageSize =		\| ImageSize =
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	\| IUPACName =		\| IUPACName =
	\| OtherNames =		\| OtherNames =
	\| Section1 = {{Chembox Identifiers		\|Section1={{Chembox Identifiers
	\| ChemSpiderID_Ref = {{chemspidercite\|correct\|chemspider}}		\| ChemSpiderID_Ref = {{chemspidercite\|correct\|chemspider}}
	\| ChemSpiderID = 123854		\| ChemSpiderID = 123854
	\| InChI = 1/FNS/c1-3-2		\| InChI = 1/FNS/c1-3-2
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	\| StdInChIKey_Ref = {{stdinchicite\|correct\|chemspider}}		\| StdInChIKey_Ref = {{stdinchicite\|correct\|chemspider}}
	\| StdInChIKey = IMFUYZDKLVTPSW-UHFFFAOYSA-N		\| StdInChIKey = IMFUYZDKLVTPSW-UHFFFAOYSA-N
			\| CASNo_Ref = {{cascite\|changed\|??}}
	\| CASNo = 18820-63-8		\| CASNo = 18820-63-8
	\| PubChem = 140430		\| PubChem = 140430
	\| SMILES = FS#N		\| SMILES = FS#N
	}}		}}
	\| Section2 = {{Chembox Properties		\|Section2={{Chembox Properties
	\| Formula = NSF		\| Formula = NSF
	\| MolarMass = 65.07 g mol<sup>−1</sup>		\| MolarMass = 65.07 g mol<sup>−1</sup>
	\| Appearance = colourless gas		\| Appearance = colourless gas
	\| Density =		\| Density =
	\| ~~MeltingPt~~ = −89 °C		\| MeltingPtC = −89
	\| ~~BoilingPt~~ = 0.4 °C		\| BoilingPtC = 0.4
	\| Solubility =		\| Solubility =
	}}		}}
	}}		}}

	'''Thiazyl fluoride''', NSF, is a colourless, pungent gas ~~that~~ is ~~unstable~~ at ~~room~~ ~~temperature~~.<ref>{{cite journal \| author = Oskar Glemser and Rüdiger Mews \| title = Chemistry of Thiazyl Fluoride (NSF) and Thiazyl Trifluoride (NSF<sub>3</sub>): A Quarter Century of Sulfur-Nitrogen-Fluorine Chemistry \| year = 1980 \| journal = ] \| volume = 19 \| issue = 11 \| pages = 883–899 \| doi = 10.1002/anie.198008831}}</ref> Along with ], NSF<sub>3</sub>, it is an important precursor to ~~other~~ sulfur-nitrogen-fluorine compounds.		'''Thiazyl fluoride''', NSF, is a colourless, pungent gas at room temperature and condenses to a pale yellow liquid at 0.4 '''°'''C.<ref name=":0">{{cite journal \| author = Oskar Glemser and Rüdiger Mews \| title = Chemistry of Thiazyl Fluoride (NSF) and Thiazyl Trifluoride (NSF<sub>3</sub>): A Quarter Century of Sulfur-Nitrogen-Fluorine Chemistry \| year = 1980 \| journal = ] \| volume = 19 \| issue = 11 \| pages = 883–899 \| doi = 10.1002/anie.198008831}}</ref> Along with ], NSF<sub>3</sub>, it is an important precursor to sulfur-nitrogen-fluorine compounds. It is notable for its extreme ].

			== Synthesis ==
			Thiazyl fluoride can be synthesized by various methods, such as ] of ] with ] or ]. It can be purified by vacuum distillation.<ref>{{Cite journal \|last=Fischer \|first=Gad \|date=1974-05-01 \|title=Vibrational assignments in the electronic spectra of thiazyl fluoride \|url=https://dx.doi.org/10.1016/0022-2852%2874%2990050-2 \|journal=Journal of Molecular Spectroscopy \|language=en \|volume=51 \|issue=2 \|pages=208–215 \|doi=10.1016/0022-2852(74)90050-2 \|bibcode=1974JMoSp..51..208F \|issn=0022-2852}}</ref><ref>{{Cite journal \|last1=Glemser \|first1=Oskar \|last2=Schröder \|first2=Hans \|last3=Haeseler \|first3=Harke \|date=1955-01-01 \|title=Über Schwefel-Stickstoff-Fluorverbindungen \|url=https://doi.org/10.1007/BF00621536 \|journal=Naturwissenschaften \|language=de \|volume=42 \|issue=2 \|pages=44 \|doi=10.1007/BF00621536 \|bibcode=1955NW.....42...44G \|s2cid=32868758 \|issn=1432-1904}}</ref> However, because this synthetic pathway yields numerous side-products, an alternative approach is the reaction of imino(triphenyl)phosphines with ] by cleavage of the bond to form sulfur difluoride imides and triphenyldifluorophosphorane.<ref>{{Cite journal \|last1=Appel \|first1=Rolf \|last2=Laßmann \|first2=Eberhard \|date=July 1971 \|title=Über eine neue Synthese des Thiazylfluorids, NSF \|url=https://onlinelibrary.wiley.com/doi/10.1002/cber.19711040727 \|journal=Chemische Berichte \|language=en \|volume=104 \|issue=7 \|pages=2246–2249 \|doi=10.1002/cber.19711040727 \|issn=0009-2940}}</ref> These products readily decompose yielding thiazyl fluoride.

			For synthesis on a preparative scale, the decomposition of compounds already containing the moiety is commonly used:<ref name=Sulf>{{cite book\|title=Sulfur in Organic and Inorganic Chemistry\|volume=1\|editor-first=Alexander\|editor-last=Senning\|year=1971\|publisher=Marcel Dekker\|location=New York\|lccn=70-154612\|isbn=0-8247-1615-9\|first=H. W.\|last=Roesky\|chapter=The Sulfur–Nitrogen Bond\|page=22}}</ref>
			]

			== Reactivity ==
			=== Reactions with electrophiles and Lewis acids===
			] remove fluoride to afford thiazyl salts:<ref>{{Cite journal \|last=Mews \|first=Rüdiger \|date=November 1976 \|title=Das Thionitrosylkation NS+ als Synthesereagens \|url=https://onlinelibrary.wiley.com/doi/10.1002/ange.19760882205 \|journal=Angewandte Chemie \|language=de \|volume=88 \|issue=22 \|pages=757–758 \|doi=10.1002/ange.19760882205\|bibcode=1976AngCh..88..757M }}</ref>
			:{{chem2\|NSF + BF3 -> BF4}}

			Thiazyl fluoride functions as a ] in {{chem2\|+}}.<ref name=":0" /> and {{chem2\|(2+)}} (M = Co, Ni). In all of its complexes, NSF is bound to the metal center through nitrogen.<ref name=":02">{{cite journal \|author=Oskar Glemser and Rüdiger Mews \|year=1980 \|title=Chemistry of Thiazyl Fluoride (NSF) and Thiazyl Trifluoride (NSF<sub>3</sub>): A Quarter Century of Sulfur-Nitrogen-Fluorine Chemistry \|journal=] \|volume=19 \|issue=11 \|pages=883–899 \|doi=10.1002/anie.198008831}}</ref>

			=== Reactions with nucleophiles ===
			Thiazyl fluoride reacts violently with water:<ref>{{Citation \|last1=Mews \|first1=Rudiger \|title=Acyclic Sulfur Nitrogen Fluorine Compounds \|date=2007-01-05 \|url=https://onlinelibrary.wiley.com/doi/10.1002/9780470132555.ch6 \|work=Inorganic Syntheses \|pages=12–17 \|editor-last=Shreeve \|editor-first=Jean'ne M. \|place=Hoboken, NJ, USA \|publisher=John Wiley & Sons, Inc. \|doi=10.1002/9780470132555.ch6 \|isbn=978-0-470-13255-5 \|access-date=2022-12-15 \|last2=Keller \|first2=Klaus \|last3=Glemser \|first3=Oskar \|last4=Seppelt \|first4=K. \|last5=Thrasher \|first5=J.}}</ref>
			:{{chem2\|NSF + 2 H2O -> SO2 + HF + NH3}}

			]

			] attack on thiazyl fluoride occurs at sulfur atom:.<ref>{{Cite journal \|last1=Cohen \|first1=B. \|last2=Hooper \|first2=T. R. \|last3=Hugill \|first3=D. \|last4=Peacock \|first4=R. D. \|date=August 1965 \|title=Preparation of Thiazyl Fluorides \|url=https://www.nature.com/articles/207748b0 \|journal=Nature \|language=en \|volume=207 \|issue=4998 \|pages=748–749 \|doi=10.1038/207748b0 \|bibcode=1965Natur.207..748C \|s2cid=4163539 \|issn=1476-4687}}</ref>
			:{{chem2\|NS\sF + Nu- -> NS\sNu + F-}}
			Fluoride gives an adduct:
			:{{chem2\|NS\sF + F- -> NSF2-}}

			The halogen derivatives XNSF<sub>2</sub> (X = F, Cl, Br, I) can be synthesized from reacting Hg(NSF)<sub>2</sub> with X<sub>2</sub>; whereby, ClNSF<sub>2</sub> is the most stable compound observed in this series.<ref>{{Cite journal \|last1=Glemser \|first1=Oskar \|last2=Mews \|first2=Rüdiger \|last3=Roesky \|first3=Herbert W. \|date=May 1969 \|title=Darstellung und Eigenschaften von Quecksilber-bis-schwefeldifluoridimid, N -Chlor-schwefeldifluoridimid und N -Brom-schwefeldifluoridimid \|url=https://onlinelibrary.wiley.com/doi/10.1002/cber.19691020513 \|journal=Chemische Berichte \|language=en \|volume=102 \|issue=5 \|pages=1523–1528 \|doi=10.1002/cber.19691020513 \|issn=0009-2940}}</ref>

			=== Oligomerization and cycloaddition ===
			At room temperature, thiazyl fluoride undergoes cyclic ] via the <chem>N-S</chem> multiple bonding:

			:]

			1,3,5-trifluoro-1<math>\lambda^4</math>,3<math>\lambda^4</math>,5<math>\lambda^4</math>,2,4,6-trithiatriazine is the yielded cyclic trimer, where each sulfur atom remains ].

			Thiazyl fluoride also reacts via exothermic ] in the presence of dienes.

			:]

			== Structure and bonding ==
			]
			The N−S bond length is 1.448 Å, which is short, indicating multiple bonding, and can be represented by the following resonance structures:

			:]

			The NSF molecule has 18 total valence electrons and is isoelectronic to ]. Thiazyl fluoride adopts C<sub>s</sub>-symmetry and has been shown by isotopic substitution to be bent in the ground state.<ref>{{Cite journal \|last1=So \|first1=Suk Ping \|last2=Richards \|first2=W. Graham \|date=1978-01-01 \|title=Geometries and stabilities of NSF and SNF \|url=https://pubs.rsc.org/en/content/articlelanding/1978/f2/f29787401743 \|journal=Journal of the Chemical Society, Faraday Transactions 2: Molecular and Chemical Physics \|language=en \|volume=74 \|pages=1743–1745 \|doi=10.1039/F29787401743 \|issn=0300-9238}}</ref><ref>{{Cite journal \|last1=Dixon \|first1=R. N. \|last2=Duxbury \|first2=G. \|last3=Fleming \|first3=G. R. \|last4=Hugo \|first4=J. M. V. \|date=1972-05-01 \|title=The photoelectron spectrum of thiazyl fluoride \|url=https://dx.doi.org/10.1016/0009-2614%2872%2987141-0 \|journal=Chemical Physics Letters \|language=en \|volume=14 \|issue=1 \|pages=60–63 \|doi=10.1016/0009-2614(72)87141-0 \|bibcode=1972CPL....14...60D \|issn=0009-2614}}</ref> A combination of rotational analysis with Franck-Condon calculations has been applied to study the electronic excitation from the A<nowiki>''</nowiki><math>-</math>A' states, which results in the elongation of the <chem>N-S</chem> bond by 0.11 Å and a decrease in the <math>\measuredangle</math>NSF by 15.3<math>^\circ</math>.

	== References ==		== References ==
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Latest revision as of 17:12, 5 November 2024

Thiazyl fluoride
Identifiers


CAS Number	18820-63-8
3D model (JSmol)	Interactive image
ChemSpider	123854
PubChem CID	140430
CompTox Dashboard (EPA)	DTXSID00172170
InChI InChI=1S/FNS/c1-3-2Key: IMFUYZDKLVTPSW-UHFFFAOYSA-N InChI=1/FNS/c1-3-2Key: IMFUYZDKLVTPSW-UHFFFAOYAG
SMILES FS#N
Properties
Chemical formula	NSF
Molar mass	65.07 g mol
Appearance	colourless gas
Melting point	−89 °C (−128 °F; 184 K)
Boiling point	0.4 °C (32.7 °F; 273.5 K)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). N verify (what is ?) Infobox references

Chemical compound

Thiazyl fluoride, NSF, is a colourless, pungent gas at room temperature and condenses to a pale yellow liquid at 0.4 °C. Along with thiazyl trifluoride, NSF₃, it is an important precursor to sulfur-nitrogen-fluorine compounds. It is notable for its extreme hygroscopicity.

Synthesis

Thiazyl fluoride can be synthesized by various methods, such as fluorination of tetrasulfur tetranitride with silver(II) fluoride or mercuric fluoride. It can be purified by vacuum distillation. However, because this synthetic pathway yields numerous side-products, an alternative approach is the reaction of imino(triphenyl)phosphines with sulfur tetrafluoride by cleavage of the bond to form sulfur difluoride imides and triphenyldifluorophosphorane. These products readily decompose yielding thiazyl fluoride.

For synthesis on a preparative scale, the decomposition of compounds already containing the moiety is commonly used:

Reactivity

Reactions with electrophiles and Lewis acids

Lewis acids remove fluoride to afford thiazyl salts:

NSF + BF₃ → [NS]BF₄

Thiazyl fluoride functions as a ligand in [Re(CO)₅NSF]. and [M(NSF)₆] (M = Co, Ni). In all of its complexes, NSF is bound to the metal center through nitrogen.

Reactions with nucleophiles

Thiazyl fluoride reacts violently with water:

NSF + 2 H₂O → SO₂ + HF + NH₃

2D contour plot of the electron density using the Laplacian function of thiazyl fluoride.

Nucleophilic attack on thiazyl fluoride occurs at sulfur atom:.

NS−F + Nu → NS−Nu + F

Fluoride gives an adduct:

NS−F + F → NSF−2

The halogen derivatives XNSF₂ (X = F, Cl, Br, I) can be synthesized from reacting Hg(NSF)₂ with X₂; whereby, ClNSF₂ is the most stable compound observed in this series.

Oligomerization and cycloaddition

At room temperature, thiazyl fluoride undergoes cyclic trimerization via the ${\ce {N-S}}$ multiple bonding:

1,3,5-trifluoro-1 $\lambda ^{4}$ ,3 $\lambda ^{4}$ ,5 $\lambda ^{4}$ ,2,4,6-trithiatriazine is the yielded cyclic trimer, where each sulfur atom remains tetravalent.

Thiazyl fluoride also reacts via exothermic cycloaddition in the presence of dienes.

Structure and bonding

The N−S bond length is 1.448 Å, which is short, indicating multiple bonding, and can be represented by the following resonance structures:

The NSF molecule has 18 total valence electrons and is isoelectronic to sulfur dioxide. Thiazyl fluoride adopts C_s-symmetry and has been shown by isotopic substitution to be bent in the ground state. A combination of rotational analysis with Franck-Condon calculations has been applied to study the electronic excitation from the A'' $-$ A' states, which results in the elongation of the ${\ce {N-S}}$ bond by 0.11 Å and a decrease in the $\measuredangle$ NSF by 15.3 $^{\circ }$ .

References

^ Oskar Glemser and Rüdiger Mews (1980). "Chemistry of Thiazyl Fluoride (NSF) and Thiazyl Trifluoride (NSF₃): A Quarter Century of Sulfur-Nitrogen-Fluorine Chemistry". Angew. Chem. Int. Ed. Engl. 19 (11): 883–899. doi:10.1002/anie.198008831.
Fischer, Gad (1974-05-01). "Vibrational assignments in the electronic spectra of thiazyl fluoride". Journal of Molecular Spectroscopy. 51 (2): 208–215. Bibcode:1974JMoSp..51..208F. doi:10.1016/0022-2852(74)90050-2. ISSN 0022-2852.
Glemser, Oskar; Schröder, Hans; Haeseler, Harke (1955-01-01). "Über Schwefel-Stickstoff-Fluorverbindungen". Naturwissenschaften (in German). 42 (2): 44. Bibcode:1955NW.....42...44G. doi:10.1007/BF00621536. ISSN 1432-1904. S2CID 32868758.
Appel, Rolf; Laßmann, Eberhard (July 1971). "Über eine neue Synthese des Thiazylfluorids, NSF". Chemische Berichte. 104 (7): 2246–2249. doi:10.1002/cber.19711040727. ISSN 0009-2940.
Roesky, H. W. (1971). "The Sulfur–Nitrogen Bond". In Senning, Alexander (ed.). Sulfur in Organic and Inorganic Chemistry. Vol. 1. New York: Marcel Dekker. p. 22. ISBN 0-8247-1615-9. LCCN 70-154612.
Mews, Rüdiger (November 1976). "Das Thionitrosylkation NS+ als Synthesereagens". Angewandte Chemie (in German). 88 (22): 757–758. Bibcode:1976AngCh..88..757M. doi:10.1002/ange.19760882205.
Oskar Glemser and Rüdiger Mews (1980). "Chemistry of Thiazyl Fluoride (NSF) and Thiazyl Trifluoride (NSF₃): A Quarter Century of Sulfur-Nitrogen-Fluorine Chemistry". Angew. Chem. Int. Ed. Engl. 19 (11): 883–899. doi:10.1002/anie.198008831.
Mews, Rudiger; Keller, Klaus; Glemser, Oskar; Seppelt, K.; Thrasher, J. (2007-01-05), Shreeve, Jean'ne M. (ed.), "Acyclic Sulfur Nitrogen Fluorine Compounds", Inorganic Syntheses, Hoboken, NJ, USA: John Wiley & Sons, Inc., pp. 12–17, doi:10.1002/9780470132555.ch6, ISBN 978-0-470-13255-5, retrieved 2022-12-15
Cohen, B.; Hooper, T. R.; Hugill, D.; Peacock, R. D. (August 1965). "Preparation of Thiazyl Fluorides". Nature. 207 (4998): 748–749. Bibcode:1965Natur.207..748C. doi:10.1038/207748b0. ISSN 1476-4687. S2CID 4163539.
Glemser, Oskar; Mews, Rüdiger; Roesky, Herbert W. (May 1969). "Darstellung und Eigenschaften von Quecksilber-bis-schwefeldifluoridimid, N -Chlor-schwefeldifluoridimid und N -Brom-schwefeldifluoridimid". Chemische Berichte. 102 (5): 1523–1528. doi:10.1002/cber.19691020513. ISSN 0009-2940.
So, Suk Ping; Richards, W. Graham (1978-01-01). "Geometries and stabilities of NSF and SNF". Journal of the Chemical Society, Faraday Transactions 2: Molecular and Chemical Physics. 74: 1743–1745. doi:10.1039/F29787401743. ISSN 0300-9238.
Dixon, R. N.; Duxbury, G.; Fleming, G. R.; Hugo, J. M. V. (1972-05-01). "The photoelectron spectrum of thiazyl fluoride". Chemical Physics Letters. 14 (1): 60–63. Bibcode:1972CPL....14...60D. doi:10.1016/0009-2614(72)87141-0. ISSN 0009-2614.

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