5330-89-2

Basic information

• Product Name: 4-phenylsulfanylbutylsulfanylbenzene
• CAS NO: 5330-89-2
• Molecular Formula: C₁₆H₁₆ClNO₃
• Molecular Weight: 274.451
• Mol File: 5330-89-2.mol

Chemical Properties

• Boiling Point: 408°Cat760mmHg
• Flash Point: 200.9°C
• Density: 1.12g/cm³
• CAS DataBase Reference: 4-phenylsulfanylbutylsulfanylbenzene(CAS DataBase Reference)
• NIST Chemistry Reference: 4-phenylsulfanylbutylsulfanylbenzene(5330-89-2)
• EPA Substance Registry System: 4-phenylsulfanylbutylsulfanylbenzene(5330-89-2)

Safety Data

• Hazardous Substances Data: 5330-89-2(Hazardous Substances Data)

Upstream product

• 110-52-1 1,4-dibromo-butane 
• 930-69-8 sodium thiophenolate 
• 14633-31-9 1-chloro-4-(phenylthio)butane 
• 108-98-5 thiophenol 
• 106-99-0 buta-1,3-diene 
• 927-73-1 3-butenyl chloride 
• 3111-52-2 potassium thiophenolate 
• 110-56-5 1,4-dichlorobutane 
• 82135-84-0 S,S'-dimethyl-1,4-bis(phenylthio)butane fluoroborate 
• 108-88-3 toluene 
• 109-99-9 tetrahydrofuran 

Downstream Products

• 82135-84-0 S,S'-dimethyl-1,4-bis(phenylthio)butane fluoroborate 
• 53480-95-8 1,1,4,4-tetrakis(phenylthio)butane 
• 90502-37-7 HgCl₂(C₆H₅S(CH₂)4SC₆H₅) 
• 1020186-53-1 [Au₂Cl₂(1,4-bis(phenylthio)butane)] 

Relevant articles and documents

Base-Mediated Radical Borylation of Alkyl Sulfones

A practical and direct method was developed for the production of versatile alkyl boronate esters via transition metal-free borylation of primary and secondary alkyl sulfones. The key to the success of the strategy is the use of bis(neopentyl glycolato) diboron (B2neop2), with a stoichiometric amount of base as a promoter. The practicality and industrial potential of this protocol are highlighted by its wide functional group tolerance, the late-stage modification of complex compounds, no need for further transesterification, and operational simplicity. Radical clock, radical trap experiments, and EPR studies were conducted which show that the borylation process involves radical intermediates.

Prospective new amidinothiazoles as leukotriene B4 inhibitors

An efficient and one-step synthesis of the versatile, hitherto new derivatives resembling LY293111, a prospective potent antagonist of the leukotriene B4 (LTB4) receptor, were reported. The strategy was based on the synthesis of an amidinothiazole ring, c

A new 3-D coordination polymer as a precursor for CuI-based thermoelectric composites

Two complexes, [Cu6I6(L1)3]n (I) and [Cu4I4(L2)2]n (II) (L1 = 1,4-bis(phenylthio)but-2-yne; L2 = 1,4-bis(phenylthio)butane), as precursors for thermoelectric composite

Ionic liquid as catalyst and reaction medium: A simple, convenient and green procedure for the synthesis of thioethers, thioesters and dithianes using an inexpensive ionic liquid, [pmIm]Br

An easily accessible and inexpensive room temperature ionic liquid, 1-pentyl-3-methylimidazolium bromide, [pmIm]Br efficiently catalyzes the reaction of alkyl halides or acyl halides with thiols without any solvent at room temperature leading to the synthesis of thioethers and thioesters in high yields. This reaction has also been extended for the preparation of dithianes and transthioetherification. The ionic liquid is recovered and recycled for subsequent runs.

Unusual cleavage of ethers by thiophenol on the surface of silica gel impregnated with indium(III) chloride under microwave irradiation: Efficient procedure for the synthesis of thioethers through transthioetherification

Cyclic and open-chain benzylic ethers undergo cleavage by thiophenol on the surface of silica gel impregnated with indium(III) chloride under microwave irradiation to produce the corresponding di- and monothioethers.

1H- And13C-NMR and electron ionization (EI) mass spectrometric study of o- And p-substituted 1,n-diarylsulfonylalkanes, XC6H4so2(CH2)nso 2C6H4X (n = 2-5, 8, 10)+

1,n-Diphenylsulfonylalkanes, PhSO2(CH2)nSO2Ph (n =2-5, 8, 10) and their o- or p-Cl or -OMe derivatives were prepared and their 1H- and 13C-NMR and EI mass spectra recorded and analyzed. The chemical shifts of the aliphatic α- and β-carbons showed a clear dependence on the o-aryl substitution, the o-Cl being the most shielding for both. Clear low-field effects were found also for the aliphatic α-protons in o-Cl and o-OMe derivatives. In case of p-OMe derivatives a palpable shielding of the aliphatic α-protons was also found similarly to the β-protons of the o-OMe derivatives. Characteristic mass spectrometric fragmentations which reflected both the influence of the aryl substitution and the length of the alkyl chain were observed and sometimes also exhibited the sulphinic acid rearrangement.

INNOVATIVE APPROACH TO THE SYNTHESIS OF SULPHIDES AND THEIR CORRESPONDING SULPHONES

A general and efficient synthetic approach to aryl-aryl bis-sulphides with aliphatic or aromatic bridges via the nucleophilic aromatic substitution (SNAr) of cyclopentadienyliron arene complexes with a number of dithiols followed by photolytic demetallation is presented in this work.The oxidation of the bis(cyclopentadienyliron) arene complexes containing bis-sulphide linkages with 3-chlorobenzoic acid gave their corresponding sulphones in very good yield (70-95percent).Mixed ether/sulphide and ether/sulphone complexes were also prepared following the same synthetic strategy.Reactions of sulphide and sulphone diiron complexes with terminal chloro groups with a number of oxygen, sulphur and carbon nucleophiles allowed for the functionalization of these complexes.The use of photolytic demetallation as a means of liberating the modified arene ligands proved to be very successful.The mild conditions, high yields and low cost of the starting iron complexes make this method one of the most general and practical routes to sulphide and sulphone compounds.

Dipole Moments and UV Spectra of some Long-chain Molecules

About one hundred compounds with long-chain molecular structure have been prepared (most of them are new).The dipole moments of four α,ω-bis(p-methoxyphenylthio)alkanes and five α,ω-bis(p-methoxyphenylsulphonyl)alkanes have been determined to find the effect of chain-length.In the case of sulphones, the observed values are compared with the values calculated for free rotation around all bonds intervening the end dipoles.The uv spectra of some 1,2-(distyrylsulphonyl)ethanes, and a number of α,ω-bis(arylsulphonyl)- and α,ω-bis(aryloxy)alkanes have been recorded to examine the applicability of the principle of chromophore additivity.

Novel Alumina-catalysed Reactions of Arylthioalkyl Halides and Related Compounds

Arylthioalkyl halides of the type ArS(CH2)nCl (Ar = phenyl or substituted phenyl, n = 1-4) undergo rearrangement on heating with neutral alumina to 1,n-bis(arylthio)alkanes of type ArS(CH2)nSAr in high yield.Similar rearrangements occur with some closely related structural types.The bis(arylthio)alkanes undergo further reaction with alumina at higher temperatures in air giving diaryl disulphides.Bis(o-iodophenylthio)methane eliminates iodine on heating with alumina, producing dibenzodithiepin.Some observations concerning the mechanism are presented.

One-Electron Chemical Reductions of Phenylalkylsulfonium Salts

Twenty-two arylalkylsulfonium salts have been reduced with potassium in graphite in tetrahydrofuran and the sulfide products identified.Two trialkylsulfonium salts did not reduce under these conditions.Comparison of the sulfides from a series of monophenylalkylsulfonium salts reveals a leaving-group propensity of benzyl > secondary > primary > methyl > phenyl in a ratio of 28:(6.0 +/- 0.3):1.0:(0.53 +/- 0.09): 0.05.The cleavage ratio is shown to be independent of the electron source and the homogeneity of heterogeneity of the reaction in two cases.Multiplicative transitivity of the above ratios is not observed, although the same qualitative order is found for other comparisons.These results are interpreted in terms of the initial formation of a ?-ligand radical anion sulfonium cation, which undergoes cleavage to a carbon radical and a sulfide.This appears to be the first evidence for this type of structure in a sulfur system.Leaving-group propensities different from the above order are observed in reductions of diphenylsulfonium and benzo-fused sulfonium salts, and rationales are offered.The intermediates in these reactions appear to be different from those involved in radical additions to, or displacements on, sulfur.