TERT DODECYL MERCAPTAN (TERSYER DODESL MERKAPTAN)

TERT DODECYL MERCAPTAN (TERSYER DODESL MERKAPTAN)

TERT DODECYL MERCAPTAN

CAS NUMBER: 25103-58-6

EC NUMBER: 246-619-1

SYNONYMS:tert-Dodecanethiol; 2,3,3,4,4,5-Hexamethyl-2-hexanethiol; tert-Dodecylmercaptan; sulfole120; t-ddm; tert.Dodecanthiol;tert-Dodecyl Mercaptan ;tert-Dodecanethiol; Tert-dodecyl mercaptan;Lauryl mercaptan; Dodecyl mercaptan; TDM;t-ddm;sulfole120;Sulfol 120;Dodecanethiol;tert-Dodecanet;T-DODECANETHIOL;Ncgc00091163-01;tert-dodecylthiol;tert.Dodecanthiol; tert-Dodecanethiol, tert-Lauryl Mercaptan;tert-Dodecyl mercaptan; tert-Dodecylthiol; TERT-DODECANETHIOL; t-Dodecanethiol; t-Dodecylmercaptan; Sulfole 120; CCRIS 6030; t-DDM; 2,3,3,4,4,5; hexamethylhexane-2-thiol; terc.Dodecylmerkaptan [Czech]; EINECS 246-619-1; BRN 1738382; NCGC00091163-03; 2,3,3,4,4,5-Hexamethyl-2-hexanethiol; terc.Dodecylmerkaptan; AC1L1OFU; DSSTox_CID_5221; UNII-G00MDQ58TB; DSSTox_RID_77707; G00MDQ58TB; DSSTox_GSID_25221; SCHEMBL3332338; CHEMBL1325985; DTXSID1025221; YAJYJWXEWKRTPO-UHFFFAOYSA-NTox21_400018; AKOS015900250; LS-1066; NCGC00091163-01; NCGC00091163-02; NCGC00091163-04; CAS-25103-58-6; 3-01-00-01794 (Beilstein Handbook Reference); I14-10461; 119147-91-0; 90501-34-1; InChI=1S/C12H26S/c1-9(2)10(3,4)11(5,6)12(7,8)13/h9,13H,1-8H3; YAJYJWXEWKRTPO-UHFFFAOYSA-N; tert-Dodecanethiol; tert-Dodecanethiol; Mercaptan (tert-Dodecyl Mercaptan); tert-Dodecanethiol (mixture of isomers); tert-Lauryl Mercaptan (mixture of isomers); tert-Dodecanethiol; Alkyl Thiols, Materials Science, Micro/NanoElectronics, Self Assembly & Contact Printing, Self-Assembly Materials, Thiols; InChI=1S/C12H26S/c1-12(2,3)10-8-6-4-5-7-9-11-13/h13H,4-11H2,1-3H3; UVXGZLRXSOTRRS-UHFFFAOYSA-N; Decanethiol, 9,9-dimethyl-; Lauryl mercaptan, Dodecyl mercaptan; tert-Dodecanethiol (mixture of isomers) for synthesis; TDM, Tert-Dodecanethiol; 2,3,3,4,4,5-HEXAMETHYL-2-HEXANETHIOL; SULFOLE 120; T-DDM; T-DODECANETHIOL; T-DODECYLMERCAPTAN, TERT-DODECANETHIOL; TERT-DODECYL MERCAPTAN; TERT-DODECYL THIOL, TERT-DODECYLMERCAPTAN; TERT-DODECYLTHIOL; TERT-LAURYL MERCAPTAN; C12H26S; tert-Dodecyl Mercaptan; tert-Dodecyl mercaptan, ethoxylated;tert-Dodecylthio poly(ethyleneoxy) ethanol; tert-Dodecyl mercaptan, ethoxylated; tert-Dodecyl mercaptan, ethoxylated;tert-Dodecylthio poly(ethyleneoxy) ethanol; Sphalerite flotationTert dodecyl mercaptanDensity functional theory; tert-Dodecyl Mercaptan; tert dodecyl mercaptan wiki; tert-dodecylmercaptaN; tert-Dodecylthiol 0.97; tert-Dodecylthiol 98%; dodecanthiol 98.00% ; tert-Dodecanethiol 98+% ; tert-Dodecylthiol; tert-Dodecyl mercaptan; Tert Dodecyl Mercaptan,99.00 Grade A, 99.00 Grade A *; tert-Dodecanethiol_(mixture of isomers); ; Lauryl mercaptan; Dodecyl mercaptan; tert-Dodecanethiol; tert-Dodecyl mercaptane; tert-Dodecanethiol (mixture ofisomers); tert dodecylmercaptan ; tert-Dodecylthio 92%; tert-Dodecyl mercaptan; tert-dodecylthiol 98.0%; tert-dodecylthiol2,3,3,4,4,5-hexamethyl-2-hexanethiol; tert-Dodecylthiol 99%; tert-Dodecyl mercaptan; Sulfide Palladium Acetophenone Hydrochloric Acid Solution Mercaptan ; PEG TERT-DODECYL THIOETHER; ALPHA-(2-(TERT-DODECYLTHIO)ETHYL)-OMEGA-HYDROXYPOLY(OXY-1,2-ETHANEDIYL); DODECYLTHIOL, TERT-, ETHOXYLATED; DODECYL MERCAPTAN, TERT-, ETHOXYLATED; PEG TERT-DODECANETHIOL; POLY(OXY-1,2-ETHANEDIYL), ALPHA-(2 (TERT DODECYLTHIO)ETHYL)-OMEGA-HYDROXY- TERT-DODECYL MERCAPTAN, ETHOXYLATED; t-dodecanethiol; 2,2,4,6,6-Pentamethyl-4-heptanethiol [ACD/IUPAC Name]; 2,2,4,6,6-Pentamthyl-4-heptanethiol [French] [ACD/IUPAC Name]; 2,2,4,6,6-Pentamethyl-4-heptanthiol [German] [ACD/IUPAC Name]; 2,2,4,6,6-Pentamethylheptane-4-thiol; 25103-58-6 [RN]; 296-714-7 [EINECS]; 4-Heptanethiol, 2,2,4,6,6-pentamethyl- [ACD/Index Name]; MFCD00043233 [MDL number]; tert-Dodecylmercaptan; tert-Dodecanethiol; tert-Dodecanethiol (mixture of isomers); tert-dodecylthiol; tert-Dodecyl mercaptan; tert-Dodecylthiol; TERT-DODECANETHIOL; t-Dodecanethiol; t-Dodecylmercaptan; Sulfole 120; CCRIS 6030; t-DDM; 2,3,3,4,4,5; hexamethylhexane-2-thiol; terc.Dodecylmerkaptan [Czech]; EINECS 246-619-1; BRN 1738382; NCGC00091163-03; 2,3,3,4,4,5-Hexamethyl-2-hexanethiol; terc.Dodecylmerkaptan; AC1L1OFU; DSSTox_CID_5221; UNII-G00MDQ58TB; DSSTox_RID_77707; G00MDQ58TB; DSSTox_GSID_25221; SCHEMBL3332338; CHEMBL1325985; DTXSID1025221; YAJYJWXEWKRTPO-UHFFFAOYSA-N; Tox21_400018; AKOS015900250; LS-1066; NCGC00091163-01; NCGC00091163-02; NCGC00091163-04; CAS-25103-58-6; 3-01-00-01794 (Beilstein Handbook Reference); I14-10461; 119147-91-0; 90501-34-1; InChI=1S/C12H26S/c1-9(2)10(3,4)11(5,6)12(7,8)13/h9,13H,1-8H3; YAJYJWXEWKRTPO-UHFFFAOYSA-N; tert-Dodecanethiol; tert-Dodecanethiol; Mercaptan (tert-Dodecyl Mercaptan); tert-Dodecanethiol (mixture of isomers); tert-Lauryl Mercaptan (mixture of isomers); tert-Dodecanethiol; Alkyl Thiols, Materials Science, Micro/NanoElectronics, Self Assembly & Contact Printing, Self-Assembly Materials, Thiols; InChI=1S/C12H26S/c1-12(2,3)10-8-6-4-5-7-9-11-13/h13H,4-11H2,1-3H3; UVXGZLRXSOTRRS-UHFFFAOYSA-N; Decanethiol, 9,9-dimethyl-; Lauryl mercaptan, Dodecyl mercaptan; tert-Dodecanethiol (mixture of isomers) for synthesis; TDM, Tert-Dodecanethiol; 2,3,3,4,4,5-HEXAMETHYL-2-HEXANETHIOL; SULFOLE 120; T-DDM; T-DODECANETHIOL; T-DODECYLMERCAPTAN, TERT-DODECANETHIOL; TERT-DODECYL MERCAPTAN; TERT-DODECYL THIOL, TERT-DODECYLMERCAPTAN; TERT-DODECYLTHIOL; TERT-LAURYL MERCAPTAN; C12H26S; tert-Dodecyl Mercaptan; tert-Dodecyl mercaptan, ethoxylated;tert-Dodecylthio poly(ethyleneoxy) ethanol; tert-Dodecyl mercaptan, ethoxylated; tert-Dodecyl mercaptan, ethoxylated;tert-Dodecylthio poly(ethyleneoxy) ethanol; Sphalerite flotationTert dodecyl mercaptanDensity functional theory; tert-Dodecyl Mercaptan; tert dodecyl mercaptan wiki; tert-dodecylmercaptaN; tert-Dodecylthiol 0.97; tert-Dodecylthiol 98%; dodecanthiol 98.00% ; tert-Dodecanethiol 98+% ; tert-Dodecylthiol; tert-Dodecyl mercaptan; Tert Dodecyl Mercaptan,99.00 Grade A, 99.00 Grade A *; tert-Dodecanethiol_(mixture of isomers); ; Lauryl mercaptan; Dodecyl mercaptan; tert-Dodecanethiol; tert-Dodecyl mercaptane; tert-Dodecanethiol (mixture ofisomers); tert dodecylmercaptan ; tert-Dodecylthio 92%; tert-Dodecyl mercaptan; tert-dodecylthiol 98.0%; tert-dodecylthiol2,3,3,4,4,5-hexamethyl-2-hexanethiol; tert-Dodecylthiol 99%; tert-Dodecyl mercaptan; Sulfide Palladium Acetophenone Hydrochloric Acid Solution Mercaptan ; PEG TERT-DODECYL THIOETHER; ALPHA-(2-(TERT-DODECYLTHIO)ETHYL)-OMEGA-HYDROXYPOLY(OXY-1,2-ETHANEDIYL); DODECYLTHIOL, TERT-, ETHOXYLATED; DODECYL MERCAPTAN, TERT-, ETHOXYLATED; PEG TERT-DODECANETHIOL; POLY(OXY-1,2-ETHANEDIYL), ALPHA-(2 (TERT DODECYLTHIO)ETHYL)-OMEGA-HYDROXY- TERT-DODECYL MERCAPTAN, ETHOXYLATED; t-dodecanethiol; 2,2,4,6,6-Pentamethyl-4-heptanethiol [ACD/IUPAC Name]; 2,2,4,6,6-Pentamthyl-4-heptanethiol [French] [ACD/IUPAC Name]; 2,2,4,6,6-Pentamethyl-4-heptanthiol [German] [ACD/IUPAC Name]; 2,2,4,6,6-Pentamethylheptane-4-thiol; 25103-58-6 [RN]; 296-714-7 [EINECS]; 4-Heptanethiol, 2,2,4,6,6-pentamethyl- [ACD/Index Name]; MFCD00043233 [MDL number]; tert-Dodecylmercaptan; tert-Dodecanethiol; tert-Dodecanethiol (mixture of isomers); tert-dodecylthiol; tert-Dodecyl mercaptan, ethoxylated;tert-Dodecylthio pol (ethyleneoxy) ethanol; Sphalerite flotationTert dodecyl mercaptanDensity functional theory; 2,2,4,6,6-pentamethyl-4-heptanethiol (major, representative component), tert-dodecylmercaptan, tert-laurylmercaptan, TDM, tert-DDM, Sulfole120; Sulfide Palladium Acetophenone Hydrochloric Acid Solution Mercaptan; tert dodecil merkaptan; tersiyer dodesil merkaptan; tersyer dodesl merkaptan; tersyer dodesil merkaptan; tersiyer dodesl merkaptan; tert dodecyl mercaptan; tert dodsil merkaptan; tert dodecyl mercaptan; TERT DODECYL MERCAPTAN; TERSYER DODECY MERCAPTAN; TERSIYER DODESIL MERKAPTAN; TERSYER DODESL MERKAPTAN; TERSIYER DODESL MERKAPTAN; TERSYER DODESIL MERKAPTAN; TERT DODECYL MERCAPTAN; PEG-9-10 TERT-DODECYL THIOETHER; DODECYLTHIOL, TERT-, ETHOXYLATED (9-10 MOLES); DODECYL MERCAPTAN, TERT-, ETHOXYLATED (9-10 MOLES); PEG-9-10 TERT-DODECANETHIOL; TERT-DODECANETHIOL, ETHOXYLATED (9-10 MOLES); TERT-DODECYL MERCAPTAN, ETHOXYLATED (9-10 MOLES); tert Dodecylmercaptan;Sulfole 120;t-DDM;tert-Dodecyl Thiol;tert-Lauryl Mercaptan;2,3,3,4,4,5-Hexamethyl-2-hexanethiol;2,3,3,4,4,5-Hexamethylhexane-2-thiol;tert-Dodecylthiol;Tertiary Dodecyl Mercaptan;tert-Dodecyl Mercaptan;tert-Dodecanethiol;Tertiary Dodecyl Mercaptan;Tert Dodecyl Mercaptan; Tert-dodecyl mercaptan; tert-Dodecanethiol (mixture of isomers); dodecanethiol, mixed isomers; 2,3,3,4,4,5-hexamethylhexane-2-thiol; tert-Dodecanethiol; n-Dodecyl mercaptan; Dodecyl mercaptan; Lauryl mercaptan; Mercaptan C12; NDM; 1-Dodecanethiol; CH3(CH2)11SH; 202.40; 969337; MFCD00004885; tert-Dodecyl mercaptan; TERT-DODECANETHIOL; tert-Dodecylthiol; t-Dodecanethiol; t-Dodecylmercaptan; Sulfole 120; CCRIS 6030; t-DDM; 2,3,3,4,4,5-hexamethylhexane-2-thiol; terc.Dodecylmerkaptan [Czech]; 1,3,3,4,4,5-Hexamethyl-2-hexanethiol; EINECS 246-619-1; BRN 1738382; NCGC00091163-03; terc.Dodecylmerkaptan; AC1L1OFU; DSSTox_CID_5221; UNII-G00MDQ58TB; DSSTox_RID_77707; G00MDQ58TB; DSSTox_GSID_25221; SCHEMBL3332338; CHEMBL1325985; DTXSID1025221; YAJYJWXEWKRTPO-UHFFFAOYSA-N; Tox21_400018; AKOS015900250; LS-1066; NCGC00091163-01; NCGC00091163-02; NCGC00091163-04; LP082215; OR050371; CAS-25103-58-6; 3-01-00-01794; (Beilstein Handbook Reference); I14-10461; 119147-91-0; 90501-34-1; C12H26S; 1-Dodcanethiol; 1-Dodecanthiol; Pennfloat M; Pennfloat S; UNII:S8ZJB6X253; WNAHIZMDSQCWRP-UHFFFAOYSA-N; dodesil; dodesil merkaptan; merkaptan; dodecil; dodecil mercaptan; dodecyl mercaptane; dodesil mercaptane; dodecyl merkaptan; dodecyl merkaptane; dodesil merkaptane

Tertiary dodecyl mercaptan (TDM) is commonly used as a chain transfer agent in the manufacturing process of styrene/butadiene latex for use in carpet and paper industries. A gas chromatographic technique has been successfully developed for the measurement of TDM based on its sulfur content for material identification, trend analysis, or for the monitoring of un-reacted residual material in final products. The method employs low thermal mass gas chromatography (LTM-GC) and a dual-plasma sulfur chemiluminescence detector (DP-SCD) to attain a high degree of sensitivity and selectivity. Using the technique described, a detection limit in the range of 0.5 ppm (v/v) TDM and less than 1 min analysis time can be achieved. Response is linear over four orders of magnitude with high degree of repeatability of less than 5% RSD. In the process of manufacturing latex such as styrene-butadiene, a chain transfer agent is required. The chain transfer agent assists in the polymerization to make products of the desired molecular distribution. Previously, chlorinatedcompounds such as carbon tetrachloride and chloroform have been used for this application, but because of their toxicity and negative environmental effects, it is no longer a practice to employ said compounds for the manufacturing of latex used for the carpet and paper industries. Instead, use of tertiary dodecyl mercaptan (TDM) is preferred for the applications described. As a result of the world demand for latex and the magnitude of the associated industries, TDM has become a chemical of industrial significance.

Highlights

-TDM is an effective collector for sphalerite with less CuSO4 and without frother.

-TDM chemisorbs on the minerals surface.

-Adsorption modes of TDM on mineral surfaces are obtained by first-principle study.

-Absorption energies of TDM on ZnS (110) and FeS2 (100) are ⿿394.78, ⿿219.33 kJ/mol.

-Reactions happen between S 3p orbital of TDM and 3d of Zn/Fe orbital of minerals.

In the flotation of sphalerite, the concomitant flotation of sulfidic (pyrite) and nonsulfidic gangue (silica) minerals significantly reduces the grade of the float concentrate. Laboratory scale experiments have been conducted to investigate the effect of tert dodecyl mercaptan (TDM) as a collector on the flotation of sphalerite. The addition of only 160 g/t copper sulfate, which is ⿼30% of that which is being used currently in the xanthate reagent scheme, improves the grade and the recovery. The selectivity for sphalerite, with respect to pyrite, has been improved significantly when copper sulfate is added with lime as the depressant, and the results could be achieved at pH 9⿿10.5.Based on the results obtained, the interaction of tert dodecyl mercaptan with sphalerite has been investigated by adsorption measurement, fourier transform infrared (FTIR) and density functional theory (DFT). It is showed that, TDM adsorbed on sphalerite surface chemically with some characteristic peaks appeared and migrated on sphalerite surface in FTIR tests. Compared with butyl xanthate, a stronger interaction between TDM and sphalerite is determined by analyses of frontier orbital energy calculation. It is also indicated that, by adsorption energy calculation, a strong interaction between TDM and ZnS (110) surface occurs, with the energy ⿿394.78 kJ/mol. The S 3p orbital on TDM interacted strongly with Zn 3d orbital on ZnS (110) surface, and electrons transferred from the Zn atom to the O atom, which resulted in a positive coordinate bond formed. Tertiary dodecyl mercaptan or TDM is a combination of isometric thiols obtained from oligomers of isobutylene trimer or propylene tetramer. Manufacturers pick one of these two and mix it with hydrogen sulfide, then pass the mixture over a catalyst like boron trifluoride to produce TDM. It has recently become a significant industrial chemical because of its use as a chain transfer agent in the manufacture of latex. As an agent, it helps in the polymerization of the end products. This role used to be given to chloroform, carbon tetrachloride, and other compounds of chlorine. However, their toxicity and negative ecological impact made the industry look for alternatives. This chemical also goes by the following names: tert-Dodecyl mercaptan, TERT-DODECANETHIOL, t-Dodecanethiol, Sulfole 120, tert-Dodecylthiol, CCRIS 6030, and t-DDM. It is used as an intermediate, as a process regulator, and as an additive to lubricants. This appears as a colorless liquid with a repulsive odor.

Tersiyer dodesil merkaptan (TDM), retim srecinde yaygn olarak bir zincir transfer maddesi olarak kullanlr. Hal ve kat endstrisinde kullanm iin stiren / btadien lateks. Bir gaz kromatografisi teknii baaryla gerekletirilmitir. Malzeme tanmlamas, trend analizi iin kkrt ieriine dayal TDM lm iin veya Nihai rnlerdeki reaksiyona girmemi kalnt malzemenin izlenmesi. Yntem dk termal ktle gaz kromatografisi (LTM-) kullanr.GC) ve bir ift-plazma kkrt kemilminesans detektr (DP-SCD), yksek bir hassasiyet ve seicilik derecesi elde etmek iin. Tarif edilen teknik kullanlarak, 0.5 ppm (v / v) TDM aralnda ve 1 dakikadan az analiz sresinde bir tespit limiti olabilir elde etti. Yant,% 5`ten daha az RSD`nin yksek tekrarlanabilirlik derecesine sahip drt byklk derecesi zerinde dorusaldr. inde Stiren-butadien gibi lateks imalat prosesi, bir zincir transfer ajan gereklidir. Zincir aktarm ajan, istenen molekler dalmn rnlerini yapmak iin polimerizasyonda yardmc olur. Daha nce klorlu bu uygulama iin karbontetraklorr ve kloroform gibi bileikler kullanlmtr, ancak toksisiteleri nedeniyle ve olumsuz evresel etkiler, artk kullanlan lateks retimi iin sz konusu bileiklerin kullanlmas bir uygulamadr. Hal ve kat endstrisi iin. Bunun yerine, uygulamalar iin tersiyer dodesil merkaptan (TDM) kullanlmas tercih edilir tanmlad. Dnya lateks talebi ve ilgili endstrilerin bykl nedeniyle, TDM bir endstriyel nemi olan kimyasallar.

nemli

-TDM, daha az CuSO4 ve frother iermeyen sfalerit iin etkili bir toplaycdr.

-Mineraller yzeyinde TDM kemisorbs.

-TDM`nin mineral yzeyler zerindeki adsorpsiyon modlar, ilk prensip almas ile elde edilir.

-TDM`nin ZnS (110) ve FeS2 (100) zerindeki sourma enerjileri ⿿394.78, 19219.33 kJ / mol`dr.

-Srmler S 3p orbital TDM ve Zn / Fe minerallerinin orbitalleri arasnda gerekleir.

Sfaleritin flotasyonunda, slfidik (pirit) ve slfrik olmayan gang (silika) minerallerinin ezamanl flotasyonu amandra konsantresinin derecesini nemli lde azaltr. Aratrma iin laboratuvar lei deneyleri yaplmtr.Tert dodesil merkaptann (TDM) bir toplayc olarak sfaleritin flotasyonuna etkisi. Sadece 160 g / t ilavesi u anda xanthate reaktif emasnda kullanlann% 30`u olan bakr slfat, kurtarma. Pirit ile ilgili olarak sfalerit iin seicilik, bakr slfat olduunda nemli lde gelitirilmitir. Deprem olarak kire ile eklenir ve sonular pH 9⿿10.5 de elde edilebilir. Elde edilen sonulara gre, tert dodesil merkaptann sfalerit ile etkileimi adsorpsiyon lm, fourier dnm ile aratrlmtr.Kzltesi (FTIR) ve younluk fonksiyonel teorisi (DFT). TDM`nin sfalerit yzeyinde kimyasal olarak adsorbe olduu gsterilmitir.FTIR testlerinde baz karakteristik pikler sfalerit yzeyinde ortaya km ve g etmilerdir. Butilxanthate ile karlatrldnda, bir TDM ve sfalerit arasndaki daha gl etkileim, snr yrngesinin enerjihesaplamasnn analizi ile belirlenir. Bu ayrca, adsorpsiyon enerji hesaplamas ile TDM ve ZnS (110) yzeyi arasnda gl bir etkileimin, enerji ⿿394,78 kJ / mol. TDM zerindeki S 3p yrngesi ZnS (110) yzeyinde Zn 3d orbital ile kuvvetli bir ekilde etkileti ve Zn atomundan O atomuna aktarlan elektronlar, pozitif bir koordinat ba ile sonuland. Tersiyer dodesil merkaptan veya TDM, izobtilen trimeri veya propilen tetramerin oligomerlerinden elde edilen izometrik tiyollerin bir kombinasyonudur. reticiler bu ikisinden birini seer ve hidrojen slfr ile kartrr, sonra karm bor gibi bir katalizr zerinden geirirler. TDM retmek iin trifluoride. Ksa bir sre nce zincir aktarm olarak kullanlmas nedeniyle nemli bir endstriyel kimyasal haline gelmitir.Lateks retiminde ajan. Bir ajan olarak, son rnlerin polimerizasyonunda yardmc olur. Bu rol eskiden kloroform, karbon tetraklorr ve dier klorlu bileiklere verilir. Ancak, toksisite ve ekolojik ekolojik arpma endstrinin alternatifler aramasn salad. Bu kimyasal ayrca aadaki isimlerlegider: tert-Dodecyl mercaptan, TERT-DODECANETHIOL, t-Dodecanethiol, Sulfole 120, tert-Dodesiltiol, CCRIS 6030 ve t-DDM. Ara madde olarak kullanlr. Bir proses reglatr olarak ve yalayclara bir katk maddesi olarak. Bu, itici bir kokuya sahiprenksiz bir sv olarak grnr.