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1-Thioglycerol - 95%, high purity , CAS No.96-27-5

21 Citations
  • ≥95%
Item Number
T109440
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T109440-5g
5g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$9.90
T109440-25g
25g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$26.90
T109440-50g
50g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$47.90
T109440-100g
100g
In stock
$67.90
T109440-250g
250g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$151.90
T109440-500g
500g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$166.90
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Non heterocyclic block Spectroscopic reagent Sulfur containing compounds

Basic Description

SynonymsNCGC00260427-01 | 1,2-Propanediol, 3-mercapto- | HSDB 2184 | D92320 | 2,3-Dihydroxypropanethiol | 3-Mercapto-1,2-propanediole | 3-Sulfanyl-1,2-propanediol # | CHEBI:74537 | NSC5370 | NSC-5370 | Monothioglycerol [NF] | Monothioglycerol (NF) | 1-Mercapto-2,
Specifications & Purity≥95%
Storage TempStore at 2-8°C,Argon charged
Shipped InWet ice
Product Description

1-Thioglycerol is known to stimulate the synthesis of porphyrins in aerobic Escherichia coli. It is also an inhibitor of glycerol kinase activity in vitro and in situ.
1-Thioglycerol has been used in a study to assess the manipulation of aqueous growth of CdTe nanocrystals. It has also been used in a study that investigated the effect of surface attachment on ligand binding

Associated Targets(Human)

LMNA Tbio Prelamin-A/C (0 Activities)
Activity TypeActivity Value -log(M)Mechanism of ActionActivity ReferencePublications (PubMed IDs)
LMNA Tbio Prelamin-A/C (36751 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID

Associated Targets(non-human)

Plasmodium falciparum (966862 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID

Names and Identifiers

IUPAC Name 3-sulfanylpropane-1,2-diol
INCHI InChI=1S/C3H8O2S/c4-1-3(5)2-6/h3-6H,1-2H2
InChi Key PJUIMOJAAPLTRJ-UHFFFAOYSA-N
Canonical SMILES C(C(CS)O)O
Isomeric SMILES C(C(CS)O)O
WGK Germany 3
RTECS TY8140000
PubChem CID 7291
UN Number 2810
Packing Group III
Molecular Weight 108.16
Beilstein 1732046
Reaxy-Rn 1732046

Certificates

Certificate of Analysis(COA)

Enter Lot Number to search for COA:

Find and download the COA for your product by matching the lot number on the packaging.

30 results found

Lot NumberCertificate TypeDateItem
F2427274Certificate of AnalysisJun 29, 2024 T109440
F2427275Certificate of AnalysisJun 29, 2024 T109440
F2427276Certificate of AnalysisJun 29, 2024 T109440
F2427278Certificate of AnalysisJun 29, 2024 T109440
J2312504Certificate of AnalysisNov 08, 2023 T109440
J2312521Certificate of AnalysisNov 08, 2023 T109440
J2312633Certificate of AnalysisNov 08, 2023 T109440
J2312634Certificate of AnalysisNov 08, 2023 T109440
D2318694Certificate of AnalysisApr 23, 2023 T109440
D2318698Certificate of AnalysisApr 23, 2023 T109440
F2427007Certificate of AnalysisApr 23, 2023 T109440
L2201014Certificate of AnalysisDec 05, 2022 T109440
K22301249Certificate of AnalysisDec 05, 2022 T109440
K22301251Certificate of AnalysisDec 05, 2022 T109440
K22301293Certificate of AnalysisDec 05, 2022 T109440
K2230610Certificate of AnalysisDec 05, 2022 T109440
J2220047Certificate of AnalysisOct 27, 2022 T109440
J2211248Certificate of AnalysisOct 12, 2022 T109440
J2211347Certificate of AnalysisOct 12, 2022 T109440
G1816074Certificate of AnalysisMay 11, 2022 T109440
G2221365Certificate of AnalysisApr 07, 2022 T109440
G2221367Certificate of AnalysisApr 07, 2022 T109440
G2221366Certificate of AnalysisApr 07, 2022 T109440
G2221364Certificate of AnalysisApr 07, 2022 T109440
G2221363Certificate of AnalysisApr 07, 2022 T109440
C2226218Certificate of AnalysisApr 07, 2022 T109440
C2226212Certificate of AnalysisApr 07, 2022 T109440
C2226207Certificate of AnalysisApr 07, 2022 T109440
C2226176Certificate of AnalysisApr 07, 2022 T109440
B2103006Certificate of AnalysisMar 06, 2021 T109440

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Chemical and Physical Properties

SolubilitySoluble in water (slightly soluble), ethanol (miscible), acetone, and benzene (slightly soluble). Insoluble in ether
SensitivityMoisture and Air sensitive
Refractive Indexn20/D 1.525-1.53
Flash Point(°F)210.2°F(lit.)
Flash Point(°C)99°C(lit.)
Boil Point(°C)118°C

Safety and Hazards(GHS)

Pictogram(s) GHS06,   GHS07
Signal Danger
Hazard Statements

H315:Causes skin irritation

H319:Causes serious eye irritation

H335:May cause respiratory irritation

H311:Toxic in contact with skin

H331:Toxic if inhaled

H302:Harmful if swallowed

H317:May cause an allergic skin reaction

H312:Harmful in contact with skin

Precautionary Statements

P261:Avoid breathing dust/fume/gas/mist/vapors/spray.

P305+P351+P338:IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses if present and easy to do - continue rinsing.

P280:Wear protective gloves/protective clothing/eye protection/face protection.

P302+P352:IF ON SKIN: wash with plenty of water.

P321:Specific treatment (see ... on this label).

P405:Store locked up.

P501:Dispose of contents/container to ...

P264:Wash hands [and …] thoroughly after handling.

P271:Use only outdoors or in a well-ventilated area.

P270:Do not eat, drink or smoke when using this product.

P304+P340:IF INHALED: Remove person to fresh air and keep comfortable for breathing.

P403+P233:Store in a well-ventilated place. Keep container tightly closed.

P272:Contaminated work clothing should not be allowed out of the workplace.

P333+P313:IF SKIN irritation or rash occurs: Get medical advice/attention.

P362+P364:Take off contaminated clothing and wash it before reuse.

P330:Rinse mouth.

P361+P364:Take off immediately all contaminated clothing and wash it before reuse.

P264+P265:Wash hands [and …] thoroughly after handling. Do not touch eyes.

P301+P317:IF SWALLOWED: Get medical help.

P317:Get emergency medical help.

P337+P317:If eye irritation persists: Get medical help.

P332+P317:If skin irritation occurs: Get medical help.

P316:Get emergency medical help immediately.

P319:Get medical help if you feel unwell.

WGK Germany 3
RTECS TY8140000
Reaxy-Rn 1732046
Class 6.1
Merck Index 9335

Related Documents

 SDS

 Specification Sheet

Citations of This Product

1. Muhammad Abu Taher, Yi Su, Xiaolin Wang, Xiaobo Xu, Md Ahsan Habib, Jin Zhu, Jing Chen.  (2024)  Castor oil-derived polyurethane networks multiple recyclability based on reversible dynamic acetal bond.  Materials Advances,  (1): (199-208).  [PMID:10332029]
2. Xianjie Pan, Jiawei Li, Fanqi Liu, Chaoying Hu, Yanning Zeng.  (2023)  Self-healable, weldable, and reprocessable castor oil-based poly(thiourethane-urethane) networks.  JOURNAL OF APPLIED POLYMER SCIENCE,  140  (42): (e54539).  [PMID:]
3. Degui Li, Tong Liu, Yujia Luo, Xiangqun Zhuge, Kun Luo, Zhihong Luo, Xiaoteng Liu, Kui Zhang.  (2023)  Reversible ligand exchange of triphenylphosphine with thiols on gold nanoparticles for Janus modification and catalyst recycling.  SEPARATION AND PURIFICATION TECHNOLOGY,  322  (124154).  [PMID:]
4. Qinghong Yu, Qingmiao Wang, Tao Feng, Li Wang, Zhixuan Fan.  (2023)  A Novel Functionalized MoS2-Based Coating for Efficient Solar Desalination.  Materials,  16  (8): (3105).  [PMID:37109940]
5. Susu Zhao, Dejin Zhang, Yujie Jiang, Chuanhui Gao, Lei Liu, Yuetao Liu.  (2023)  A silicone coating containing natural borneol fluorinated side chains with excellent static antifouling properties.  EUROPEAN POLYMER JOURNAL,  193  (112064).  [PMID:]
6. Ze Wang, Xiangqian Li, Fengfeng Feng, Chengyang Hong, Zhiyan Sun, Wei Tian, Kun Yu, Hao Liu.  (2023)  Dynamic co-assembly behaviors of polyoxometalates and giant surfactants in dual solvents.  GIANT,  13  (100142).  [PMID:]
7. Jingyuan Hu, Haoyang Feng, Yangke Rong, Shuaipeng Wang, Dandan Jin, Qing Chen, Jinyue Dai, Xiaoqing Liu.  (2023)  Recyclable bio-based epoxy resins containing hybrid cross-linking networks.  POLYMERS FOR ADVANCED TECHNOLOGIES,  34  (5): (1599-1607).  [PMID:]
8. Yi Su, Songqi Ma, Binbo Wang, Xiwei Xu, Hongzhi Feng, Kezhen Hu, Weiqiong Zhang, Sican Zhou, Gengsheng Weng, Jin Zhu.  (2023)  High-performance castor oil-based polyurethane thermosets: Facile synthesis and properties.  REACTIVE & FUNCTIONAL POLYMERS,  183  (105496).  [PMID:]
9. Yanning Zeng, Jiawei Li, Chaoying Hu, Bin Yang, Zhao Ning.  (2022)  Sustainable Polyurethane Networks with High Self-Healing and Mechanical Properties Based on Dual Dynamic Covalent Bonds.  MACROMOLECULAR CHEMISTRY AND PHYSICS,  224  (2): (2200322).  [PMID:]
10. Jianlin Zhou, Zhonghua Yuan, Han Liu, Weixing He, Kejing Yu, Kunlin Chen.  (2022)  Bio-inspired self-healing flexible films with pomegranate-shaped nanosphere loaded graphene for electromagnetic interference shielding and superhydrophobicity performances.  Journal of Materials Chemistry A,  10  (45): (24331-24344).  [PMID:]
11. Yikai Wang, Dezhao Hao, Ming Yang, Xin Su, Pei Li, Qinze Liu, Xinglin Guo.  (2022)  Polyurethane antifouling coatings with various antifouling strategies in the side chain.  PROGRESS IN ORGANIC COATINGS,  173  (107225).  [PMID:]
12. Dejin Zhang, Susu Zhao, Zhihao Rong, Kaiming Zhang, Chuanhui Gao, Yumin Wu, Yuetao Liu.  (2022)  Silicone low surface energy antifouling coating modified by zwitterionic side chains with strong substrate adhesion.  EUROPEAN POLYMER JOURNAL,  179  (111529).  [PMID:]
13. Shujue Xu, Shen Zhang, Yang Yu, Shengrui Zhang, Minjie Li.  (2022)  Three-ligand Co-assembled 2D Au(I)-Thiolate Nanosheets.  CHEMISTRY-A EUROPEAN JOURNAL,  28  (67): (e202201968).  [PMID:36000183]
14. Jiawei Li, Chaoying Hu, Bin Yang, Zhao Ning, Yanning Zeng.  (2022)  Recyclable, self-healing itaconic acid-based polyurethane networks with dynamic boronic ester bonds for recoverable adhesion application.  POLYMER,  256  (125227).  [PMID:]
15. Peng Hu, Ru Xie, Qingyi Xie, Chunfeng Ma, Guangzhao Zhang.  (2022)  Simultaneous realization of antifouling, self-healing, and strong substrate adhesion via a bioinspired self-stratification strategy.  CHEMICAL ENGINEERING JOURNAL,  449  (137875).  [PMID:]
16. Shuangjian Yu, Fanzhu Li, Shifeng Fang, Xiaochun Yin, Siwu Wu, Zhenghai Tang, Liqun Zhang, Baochun Guo.  (2022)  Extrudable Vitrimeric Rubbers Enabled via Heterogeneous Network Design.  MACROMOLECULES,  55  (8): (3236–3248).  [PMID:]
17. Jiawei Li, Zhao Ning, Weiming Yang, Bin Yang, Yanning Zeng.  (2022)  Hydroxyl-Terminated Polybutadiene-Based Polyurethane with Self-Healing and Reprocessing Capabilities.  ACS Omega,  (12): (10156–10166).  [PMID:35382304]
18. Kangming Xu, Guoqing Chen, Mingjie Zhao, Weiyi He, Qiaoman Hu, Yong Pu.  (2022)  Transparent, self-recoverable, highly tough, puncture and tear resistant polyurethane supramolecular elastomer with fast self-healing capacity via “hard–soft” hard domain design.  RSC Advances,  12  (5): (2712-2720).  [PMID:35425297]
19. Yaya Wang, Yuqi Gu, Shun Yang.  (2022)  Developing a novel strategy for light-triggered reversible enzyme immobilization and reuse of support.  Alexandria Engineering Journal,  61  (6949).  [PMID:]
20. Chao Li, Yizhen Chen, Yong Zeng, Yuchao Wu, Wendi Liu, Renhui Qiu.  (2022)  Strong and recyclable soybean oil-based epoxy adhesives based on dynamic borate.  EUROPEAN POLYMER JOURNAL,  162  (110923).  [PMID:]
21. Guangzhi Wang,Longgang Wang,Weifeng Lin,Zhen Wang,Juan Zhang,Fangqin Ji,Guanglong Ma,Zhefan Yuan,Shengfu Chen.  (2015-07-15)  Development of Robust and Recoverable Ultralow-Fouling Coatings Based on Poly(carboxybetaine) Ester Analogue..  ACS applied materials & interfaces,  ((31)): (16938-16945).  [PMID:26162011]

References

1. Muhammad Abu Taher, Yi Su, Xiaolin Wang, Xiaobo Xu, Md Ahsan Habib, Jin Zhu, Jing Chen.  (2024)  Castor oil-derived polyurethane networks multiple recyclability based on reversible dynamic acetal bond.  Materials Advances,  (1): (199-208).  [PMID:10332029]
2. Xianjie Pan, Jiawei Li, Fanqi Liu, Chaoying Hu, Yanning Zeng.  (2023)  Self-healable, weldable, and reprocessable castor oil-based poly(thiourethane-urethane) networks.  JOURNAL OF APPLIED POLYMER SCIENCE,  140  (42): (e54539).  [PMID:]
3. Degui Li, Tong Liu, Yujia Luo, Xiangqun Zhuge, Kun Luo, Zhihong Luo, Xiaoteng Liu, Kui Zhang.  (2023)  Reversible ligand exchange of triphenylphosphine with thiols on gold nanoparticles for Janus modification and catalyst recycling.  SEPARATION AND PURIFICATION TECHNOLOGY,  322  (124154).  [PMID:]
4. Qinghong Yu, Qingmiao Wang, Tao Feng, Li Wang, Zhixuan Fan.  (2023)  A Novel Functionalized MoS2-Based Coating for Efficient Solar Desalination.  Materials,  16  (8): (3105).  [PMID:37109940]
5. Susu Zhao, Dejin Zhang, Yujie Jiang, Chuanhui Gao, Lei Liu, Yuetao Liu.  (2023)  A silicone coating containing natural borneol fluorinated side chains with excellent static antifouling properties.  EUROPEAN POLYMER JOURNAL,  193  (112064).  [PMID:]
6. Ze Wang, Xiangqian Li, Fengfeng Feng, Chengyang Hong, Zhiyan Sun, Wei Tian, Kun Yu, Hao Liu.  (2023)  Dynamic co-assembly behaviors of polyoxometalates and giant surfactants in dual solvents.  GIANT,  13  (100142).  [PMID:]
7. Jingyuan Hu, Haoyang Feng, Yangke Rong, Shuaipeng Wang, Dandan Jin, Qing Chen, Jinyue Dai, Xiaoqing Liu.  (2023)  Recyclable bio-based epoxy resins containing hybrid cross-linking networks.  POLYMERS FOR ADVANCED TECHNOLOGIES,  34  (5): (1599-1607).  [PMID:]
8. Yi Su, Songqi Ma, Binbo Wang, Xiwei Xu, Hongzhi Feng, Kezhen Hu, Weiqiong Zhang, Sican Zhou, Gengsheng Weng, Jin Zhu.  (2023)  High-performance castor oil-based polyurethane thermosets: Facile synthesis and properties.  REACTIVE & FUNCTIONAL POLYMERS,  183  (105496).  [PMID:]
9. Yanning Zeng, Jiawei Li, Chaoying Hu, Bin Yang, Zhao Ning.  (2022)  Sustainable Polyurethane Networks with High Self-Healing and Mechanical Properties Based on Dual Dynamic Covalent Bonds.  MACROMOLECULAR CHEMISTRY AND PHYSICS,  224  (2): (2200322).  [PMID:]
10. Jianlin Zhou, Zhonghua Yuan, Han Liu, Weixing He, Kejing Yu, Kunlin Chen.  (2022)  Bio-inspired self-healing flexible films with pomegranate-shaped nanosphere loaded graphene for electromagnetic interference shielding and superhydrophobicity performances.  Journal of Materials Chemistry A,  10  (45): (24331-24344).  [PMID:]
11. Yikai Wang, Dezhao Hao, Ming Yang, Xin Su, Pei Li, Qinze Liu, Xinglin Guo.  (2022)  Polyurethane antifouling coatings with various antifouling strategies in the side chain.  PROGRESS IN ORGANIC COATINGS,  173  (107225).  [PMID:]
12. Dejin Zhang, Susu Zhao, Zhihao Rong, Kaiming Zhang, Chuanhui Gao, Yumin Wu, Yuetao Liu.  (2022)  Silicone low surface energy antifouling coating modified by zwitterionic side chains with strong substrate adhesion.  EUROPEAN POLYMER JOURNAL,  179  (111529).  [PMID:]
13. Shujue Xu, Shen Zhang, Yang Yu, Shengrui Zhang, Minjie Li.  (2022)  Three-ligand Co-assembled 2D Au(I)-Thiolate Nanosheets.  CHEMISTRY-A EUROPEAN JOURNAL,  28  (67): (e202201968).  [PMID:36000183]
14. Jiawei Li, Chaoying Hu, Bin Yang, Zhao Ning, Yanning Zeng.  (2022)  Recyclable, self-healing itaconic acid-based polyurethane networks with dynamic boronic ester bonds for recoverable adhesion application.  POLYMER,  256  (125227).  [PMID:]
15. Peng Hu, Ru Xie, Qingyi Xie, Chunfeng Ma, Guangzhao Zhang.  (2022)  Simultaneous realization of antifouling, self-healing, and strong substrate adhesion via a bioinspired self-stratification strategy.  CHEMICAL ENGINEERING JOURNAL,  449  (137875).  [PMID:]
16. Shuangjian Yu, Fanzhu Li, Shifeng Fang, Xiaochun Yin, Siwu Wu, Zhenghai Tang, Liqun Zhang, Baochun Guo.  (2022)  Extrudable Vitrimeric Rubbers Enabled via Heterogeneous Network Design.  MACROMOLECULES,  55  (8): (3236–3248).  [PMID:]
17. Jiawei Li, Zhao Ning, Weiming Yang, Bin Yang, Yanning Zeng.  (2022)  Hydroxyl-Terminated Polybutadiene-Based Polyurethane with Self-Healing and Reprocessing Capabilities.  ACS Omega,  (12): (10156–10166).  [PMID:35382304]
18. Kangming Xu, Guoqing Chen, Mingjie Zhao, Weiyi He, Qiaoman Hu, Yong Pu.  (2022)  Transparent, self-recoverable, highly tough, puncture and tear resistant polyurethane supramolecular elastomer with fast self-healing capacity via “hard–soft” hard domain design.  RSC Advances,  12  (5): (2712-2720).  [PMID:35425297]
19. Yaya Wang, Yuqi Gu, Shun Yang.  (2022)  Developing a novel strategy for light-triggered reversible enzyme immobilization and reuse of support.  Alexandria Engineering Journal,  61  (6949).  [PMID:]
20. Chao Li, Yizhen Chen, Yong Zeng, Yuchao Wu, Wendi Liu, Renhui Qiu.  (2022)  Strong and recyclable soybean oil-based epoxy adhesives based on dynamic borate.  EUROPEAN POLYMER JOURNAL,  162  (110923).  [PMID:]
21. Guangzhi Wang,Longgang Wang,Weifeng Lin,Zhen Wang,Juan Zhang,Fangqin Ji,Guanglong Ma,Zhefan Yuan,Shengfu Chen.  (2015-07-15)  Development of Robust and Recoverable Ultralow-Fouling Coatings Based on Poly(carboxybetaine) Ester Analogue..  ACS applied materials & interfaces,  ((31)): (16938-16945).  [PMID:26162011]

Solution Calculators

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