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Trifluoroacetic acid-d - 99.5 atom % D+0.03%TMS,for NMR, high purity , CAS No.599-00-8

11 Citations

≥99.5 atom% D
contains 0.03%(v/v) TMS,for NMR

CAS#: 599-00-8
Molecular Weight: 115.03
Beilstein Registry Number: 1768662
EC Number: 209-961-2
MDL number: MFCD00044563
PubChem CID: 71502

Item Number

T109782

Grouped product items
SKU	Size	Availability	Price
T109782-5g	5g	3	$103.90
T109782-10g	10g	3	$171.90
T109782-25g	25g	Available within 8-12 weeks(?) Production requires sourcing of materials. We appreciate your patience and understanding.	$399.90

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Deuterated reagent (0) Stable isotope (0)

Basic Description

Synonyms	Trifluoroacetic acid-d \| 599-00-8 \| deuterio 2,2,2-trifluoroacetate \| Deuterotrifluoroacetic acid \| TFA-d \| CF3COOD \| Acetic acid-d, trifluoro- \| deuterated trifluoroacetic acid \| MFCD00044563 \| Trifluoroacetic acid-d (TFA-d) \| Trifluoroacetic acid-d, 99.5 atom % D \| Acetic ac
Specifications & Purity	≥99.5 atom% D, contains 0.03%(v/v) TMS,for NMR
Storage Temp	Argon charged
Shipped In	Normal
Product Description	Trifluoroacetic acid-d is a standard purity solvent suitable for routine NMR analyses (conducted at ambient temperatures where quality is less critical). Trifluoroacetic acid-d is a synthetic reagent having isotopic purity of 99.5atom%D. It undergoes SE′ reaction with (R)-(E)-1,3-diphenyl-3-trimethylsilylpropene, via antistereochemistry to afford (R)-(E)-1,3-diphenylpropene-3-d.Vapor phase dissociation of trifluoroacetic acid-d has been studied. Application： Trifluoroacetic acid-d may be employed as solvent to investigate the conformations of cyclic peptides by proton NMR spectra. It may be used to compose NMR solvent mixture to investigate the NMR spectra of high molecular weight polyesters such as polyglycolide (PG) and poly(ethylene terephthalate) (PET).

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Names and Identifiers

IUPAC Name	deuterio 2,2,2-trifluoroacetate
INCHI	InChI=1S/C2HF3O2/c3-2(4,5)1(6)7/h(H,6,7)/i/hD
InChi Key	DTQVDTLACAAQTR-DYCDLGHISA-N
Canonical SMILES	C(=O)(C(F)(F)F)O
Isomeric SMILES	[2H]OC(=O)C(F)(F)F
WGK Germany	3
PubChem CID	71502
UN Number	2699
Molecular Weight	115.03
Beilstein	1768662

Certificates（CoA,COO,BSE/TSE and Analysis Chart)

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Analytical Chart:

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15 results found

Lot Number	Certificate Type	Date	Item
H2103397	Certificate of Analysis	Dec 12, 2024	T109782
G1804155	Certificate of Analysis	Dec 12, 2024	T109782
B2309819	Certificate of Analysis	Nov 04, 2024	T109782
J2409514	Certificate of Analysis	Sep 06, 2024	T109782
J2409515	Certificate of Analysis	Sep 06, 2024	T109782
C2419361	Certificate of Analysis	Mar 07, 2024	T109782
H2103464	Certificate of Analysis	Jan 02, 2024	T109782
A2220325	Certificate of Analysis	Oct 16, 2023	T109782
A2220346	Certificate of Analysis	Oct 16, 2023	T109782
I2305682	Certificate of Analysis	Aug 26, 2023	T109782
I2305683	Certificate of Analysis	Aug 26, 2023	T109782
I2305685	Certificate of Analysis	Aug 26, 2023	T109782
B2309883	Certificate of Analysis	Nov 05, 2022	T109782
B2309890	Certificate of Analysis	Nov 05, 2022	T109782
A2220344	Certificate of Analysis	Dec 29, 2021	T109782

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Safety and Hazards(GHS)

Pictogram(s)	GHS05, GHS07
Signal	Danger
Hazard Statements	H314:Causes severe skin burns and eye damage H412:Harmful to aquatic life with long lasting effects H332:Harmful if inhaled
Precautionary Statements	P261:Avoid breathing dust/fume/gas/mist/vapors/spray. P273:Avoid release to the environment. P280:Wear protective gloves/protective clothing/eye protection/face protection. P321:Specific treatment (see ... on this label). P405:Store locked up. P501:Dispose of contents/container to ... P264:Wash hands [and …] thoroughly after handling. P260:Do not breathe dust/fume/gas/mist/vapors/spray. P271:Use only outdoors or in a well-ventilated area. P301+P330+P331:IF SWALLOWED: Rinse mouth. Do NOT induce vomiting. P304+P340:IF INHALED: Remove person to fresh air and keep comfortable for breathing. P363:Wash contaminated clothing before reuse. P305+P354+P338:IF IN EYES: Immediately rinse with water for several minutes. Remove contact lenses if present and easy to do. Continue rinsing. P317:Get emergency medical help. P302+P361+P354:IF ON SKIN: Take off Immediately all contaminated clothing. Immediately rinse with water for several minutes. P316:Get emergency medical help immediately.
WGK Germany	3

FAQs and Articles

FAQ

Should my NMR solvents be handled in a special way?

Categories: FAQs

Storage and Use Information Guide of NMR Solvents

Categories: Technical articles

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Stable isotope Deuterium reagent Solvent for NMR Deuterated chloroform

Reviews

Citations of This Product

How to Cite Aladdin Scientific Products?

1. Qian Zhang, Ying Li, Shuai Wang, Donghao Gu, Cuihua Zhang, Shihao Xu, Xiaoli Fang, Chenyang Li, Haiqiang Wu, Wei Xiong. (2024) Chitosan-based oral nanoparticles as an efficient platform for kidney-targeted drug delivery in the treatment of renal fibrosis. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 256 (128315). [PMID:38000609] [10.1016/j.ijbiomac.2023.128315]
2. Xiong Zheng, Qiang Shi, Xuzhen Zhang, Wenjian Huang, Zhou Zhang, Bona Ding. (2023) The role and mechanism of temporary blocked isocyanate at interface between polyethylene terephthalate high-strength fibers and activation oil. JOURNAL OF APPLIED POLYMER SCIENCE, (e54992). [PMID:] [10.1002/app.54992]
3. Shikun Zhao, Shun Gong, Biao Zhao, Like Hou, Lurong Zhang, Qing Hu, Kai Pan. (2023) Mechanism Study of the Polymerization of Polyamide 56: Reaction Kinetics and Process Parameters. MACROMOLECULAR RAPID COMMUNICATIONS, 44 (24): (2300371). [PMID:37657922] [10.1002/marc.202300371]
4. Diansong Gan, Yuejun Liu, Tianhui Hu, Shuhong Fan, Xiaochao Liu, Lingna Cui, Ling Yang, Yincai Wu, Lily Chen, Zhixiang Mo. (2023) The Investigation of Copolymer Composition Sequence on Non-Isothermal Crystallization Kinetics of Bio-Based Polyamide 56/512. Polymers, 15 (10): (2345). [PMID:37242922] [10.3390/polym15102345]
5. Shuhan Hou, Inseob Noh, Xinlu Shi, Yanbin Wang, Hyung Do Kim, Hideo Ohkita, Biaobing Wang. (2023) Facile fabrication of flexible superhydrophobic surfaces with high durability and good mechanical strength through embedding silica nanoparticle into polymer substrate by spraying method. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 664 (131181). [PMID:] [10.1016/j.colsurfa.2023.131181]
6. Xinran Liu, Yu Wang, Yongyan Pang, Xia Dong, Dujin Wang. (2022) A rheological method to characterize the molecular weight changes of polyamide 1012 during solid state polymerization. JOURNAL OF APPLIED POLYMER SCIENCE, 139 (45): (e53131). [PMID:] [10.1002/app.53131]
7. Xin Tong, Zhao Wang, Mei-Ling Zhang, Xiao-Jun Wang, Gang Zhang, Sheng-Ru Long, Jie Yang. (2021) Synthesis, Characterization and Non-Isothermal Crystallization Kinetics of a New Family of Poly (Ether-Block-Amide)s Based on Nylon 10T/10I. Polymers, 13 (1): (72). [PMID:33375409] [10.3390/polym13010072]
8. Tao Lei, Liu Ke, Li Taotao, Xiao Ru. (2020) Preparation and properties of biobased polyamides based on 1,9-azelaic acid and different chain length diamines. POLYMER BULLETIN, 77 (3): (1135-1156). [PMID:] [10.1007/s00289-019-02791-2]
9. Xiansong Wang, Qingyin Wang, Shaoying Liu, Gongying Wang. (2018) Biobased copolyesters: Synthesis, structure, thermal and mechanical properties of poly(ethylene 2,5-furandicarboxylate-co-ethylene 1,4-cyclohexanedicarboxylate). POLYMER DEGRADATION AND STABILITY, 154 (96). [PMID:] [10.1016/j.polymdegradstab.2018.05.026]
10. Chan Feng, Kun Wang, Yun Lin, Zhiwang Song, Yonglin Lu, Jie Liu, Donglei Zhu, Yongyong Li, Chunyan Dong. (2018) Extracellular retention of a cyclopamine nanoformulation leveraging larger size and more negative charge for improved breast cancer treatment. Journal of Materials Chemistry B, 6 (12): (1834-1843). [PMID:32254255] [10.1039/C7TB02777J]
11. Lingzhi Zhao, Zhao Li, Liu Zhao, Chenxiao Zhang. (2017) In Vivo Determination of Reduced Thiols in Rat Cerebellum Paraflocculus Following Salicylate-Induced Tinnitus by Fluorescence. ANALYTICAL LETTERS, [PMID:] [10.1080/00032719.2016.1186170]

References

1. Qian Zhang, Ying Li, Shuai Wang, Donghao Gu, Cuihua Zhang, Shihao Xu, Xiaoli Fang, Chenyang Li, Haiqiang Wu, Wei Xiong. (2024) Chitosan-based oral nanoparticles as an efficient platform for kidney-targeted drug delivery in the treatment of renal fibrosis. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 256 (128315). [PMID:38000609] [10.1016/j.ijbiomac.2023.128315]
2. Xiong Zheng, Qiang Shi, Xuzhen Zhang, Wenjian Huang, Zhou Zhang, Bona Ding. (2023) The role and mechanism of temporary blocked isocyanate at interface between polyethylene terephthalate high-strength fibers and activation oil. JOURNAL OF APPLIED POLYMER SCIENCE, (e54992). [PMID:] [10.1002/app.54992]
3. Shikun Zhao, Shun Gong, Biao Zhao, Like Hou, Lurong Zhang, Qing Hu, Kai Pan. (2023) Mechanism Study of the Polymerization of Polyamide 56: Reaction Kinetics and Process Parameters. MACROMOLECULAR RAPID COMMUNICATIONS, 44 (24): (2300371). [PMID:37657922] [10.1002/marc.202300371]
4. Diansong Gan, Yuejun Liu, Tianhui Hu, Shuhong Fan, Xiaochao Liu, Lingna Cui, Ling Yang, Yincai Wu, Lily Chen, Zhixiang Mo. (2023) The Investigation of Copolymer Composition Sequence on Non-Isothermal Crystallization Kinetics of Bio-Based Polyamide 56/512. Polymers, 15 (10): (2345). [PMID:37242922] [10.3390/polym15102345]
5. Shuhan Hou, Inseob Noh, Xinlu Shi, Yanbin Wang, Hyung Do Kim, Hideo Ohkita, Biaobing Wang. (2023) Facile fabrication of flexible superhydrophobic surfaces with high durability and good mechanical strength through embedding silica nanoparticle into polymer substrate by spraying method. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 664 (131181). [PMID:] [10.1016/j.colsurfa.2023.131181]
6. Xinran Liu, Yu Wang, Yongyan Pang, Xia Dong, Dujin Wang. (2022) A rheological method to characterize the molecular weight changes of polyamide 1012 during solid state polymerization. JOURNAL OF APPLIED POLYMER SCIENCE, 139 (45): (e53131). [PMID:] [10.1002/app.53131]
7. Xin Tong, Zhao Wang, Mei-Ling Zhang, Xiao-Jun Wang, Gang Zhang, Sheng-Ru Long, Jie Yang. (2021) Synthesis, Characterization and Non-Isothermal Crystallization Kinetics of a New Family of Poly (Ether-Block-Amide)s Based on Nylon 10T/10I. Polymers, 13 (1): (72). [PMID:33375409] [10.3390/polym13010072]
8. Tao Lei, Liu Ke, Li Taotao, Xiao Ru. (2020) Preparation and properties of biobased polyamides based on 1,9-azelaic acid and different chain length diamines. POLYMER BULLETIN, 77 (3): (1135-1156). [PMID:] [10.1007/s00289-019-02791-2]
9. Xiansong Wang, Qingyin Wang, Shaoying Liu, Gongying Wang. (2018) Biobased copolyesters: Synthesis, structure, thermal and mechanical properties of poly(ethylene 2,5-furandicarboxylate-co-ethylene 1,4-cyclohexanedicarboxylate). POLYMER DEGRADATION AND STABILITY, 154 (96). [PMID:] [10.1016/j.polymdegradstab.2018.05.026]
10. Chan Feng, Kun Wang, Yun Lin, Zhiwang Song, Yonglin Lu, Jie Liu, Donglei Zhu, Yongyong Li, Chunyan Dong. (2018) Extracellular retention of a cyclopamine nanoformulation leveraging larger size and more negative charge for improved breast cancer treatment. Journal of Materials Chemistry B, 6 (12): (1834-1843). [PMID:32254255] [10.1039/C7TB02777J]
11. Lingzhi Zhao, Zhao Li, Liu Zhao, Chenxiao Zhang. (2017) In Vivo Determination of Reduced Thiols in Rat Cerebellum Paraflocculus Following Salicylate-Induced Tinnitus by Fluorescence. ANALYTICAL LETTERS, [PMID:] [10.1080/00032719.2016.1186170]

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