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Zinc trifluoromethanesulfonate - 98%, high purity , CAS No.54010-75-2

50 Citations
  • ≥98%
Item Number
Z100682
Grouped product items
SKUSizeAvailabilityPrice Qty
Z100682-5g
5g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$42.90
Z100682-25g
25g
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Production requires sourcing of materials. We appreciate your patience and understanding.
$171.90
Z100682-100g
100g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$399.90
Z100682-500g
500g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$1,199.90
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Element classified compounds Transition metal compounds

Basic Description

SynonymsAKOS005258662 | zinc(2+) ion ditrifluoromethanesulfonate | zinc(II)triflate | Diethylamine, purified by redistillation, 99.5% | zinc (II) trifluoromethanesulfonate | Q8072312 | AMY37817 | zinc (II) triflate | Methanesulfonic acid, trifluoro-, zinc salt |
Specifications & Purity≥98%
Biochemical and Physiological MechanismsCatalyst for the synthesis of dithioketals.
Storage TempArgon charged
Shipped InNormal
Product Description

A catalyst for synthesis of dithioketals

Names and Identifiers

IUPAC Name zinc;trifluoromethanesulfonate
INCHI InChI=1S/2CHF3O3S.Zn/c2*2-1(3,4)8(5,6)7;/h2*(H,5,6,7);/q;;+2/p-2
InChi Key CITILBVTAYEWKR-UHFFFAOYSA-L
Canonical SMILES C(F)(F)(F)S(=O)(=O)[O-].C(F)(F)(F)S(=O)(=O)[O-].[Zn+2]
Isomeric SMILES C(F)(F)(F)S(=O)(=O)[O-].C(F)(F)(F)S(=O)(=O)[O-].[Zn+2]
WGK Germany 3
PubChem CID 104671
UN Number 3261
Molecular Weight 363.53
Beilstein 4028195
Reaxy-Rn 4028195

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102 results found

Lot NumberCertificate TypeDateItem
G2431567Certificate of AnalysisJul 23, 2024 Z100682
G2431574Certificate of AnalysisJul 23, 2024 Z100682
G2431587Certificate of AnalysisJul 23, 2024 Z100682
G2431588Certificate of AnalysisJul 23, 2024 Z100682
I2405124Certificate of AnalysisJul 23, 2024 Z100682
E2411386Certificate of AnalysisMay 22, 2024 Z100682
E2411387Certificate of AnalysisMay 22, 2024 Z100682
E2411393Certificate of AnalysisMay 22, 2024 Z100682
E2411394Certificate of AnalysisMay 22, 2024 Z100682
E2427198Certificate of AnalysisMay 13, 2024 Z100682
E2427199Certificate of AnalysisMay 13, 2024 Z100682
E2427200Certificate of AnalysisMay 13, 2024 Z100682
E2427201Certificate of AnalysisMay 13, 2024 Z100682
E2406189Certificate of AnalysisApr 24, 2024 Z100682
E2406190Certificate of AnalysisApr 24, 2024 Z100682
E2406195Certificate of AnalysisApr 24, 2024 Z100682
E2406212Certificate of AnalysisApr 24, 2024 Z100682
E2406213Certificate of AnalysisApr 24, 2024 Z100682
C2406503Certificate of AnalysisFeb 26, 2024 Z100682
C2406513Certificate of AnalysisFeb 26, 2024 Z100682
C2406514Certificate of AnalysisFeb 26, 2024 Z100682
C2406517Certificate of AnalysisFeb 26, 2024 Z100682
A2419743Certificate of AnalysisJan 10, 2024 Z100682
A2419744Certificate of AnalysisJan 10, 2024 Z100682
A2419745Certificate of AnalysisJan 10, 2024 Z100682
A2419746Certificate of AnalysisJan 10, 2024 Z100682
A2419747Certificate of AnalysisJan 10, 2024 Z100682
A2419748Certificate of AnalysisJan 10, 2024 Z100682
A2419749Certificate of AnalysisJan 10, 2024 Z100682
L2307356Certificate of AnalysisNov 27, 2023 Z100682
L2307357Certificate of AnalysisNov 27, 2023 Z100682
L2307358Certificate of AnalysisNov 27, 2023 Z100682
L2307359Certificate of AnalysisNov 27, 2023 Z100682
K2307390Certificate of AnalysisOct 30, 2023 Z100682
K2307391Certificate of AnalysisOct 30, 2023 Z100682
K2307392Certificate of AnalysisOct 30, 2023 Z100682
K2307395Certificate of AnalysisOct 30, 2023 Z100682
I2328246Certificate of AnalysisSep 18, 2023 Z100682
I2328599Certificate of AnalysisSep 18, 2023 Z100682
I2328600Certificate of AnalysisSep 18, 2023 Z100682
I2328601Certificate of AnalysisSep 18, 2023 Z100682
I2305523Certificate of AnalysisAug 28, 2023 Z100682
I2305524Certificate of AnalysisAug 28, 2023 Z100682
I2305525Certificate of AnalysisAug 28, 2023 Z100682
I2305526Certificate of AnalysisAug 28, 2023 Z100682
H2308761Certificate of AnalysisJul 27, 2023 Z100682
H2308765Certificate of AnalysisJul 27, 2023 Z100682
H2308775Certificate of AnalysisJul 27, 2023 Z100682
H2308776Certificate of AnalysisJul 27, 2023 Z100682
G2312607Certificate of AnalysisJun 30, 2023 Z100682
G2312654Certificate of AnalysisJun 30, 2023 Z100682
G2312661Certificate of AnalysisJun 30, 2023 Z100682
G2312665Certificate of AnalysisJun 30, 2023 Z100682
F2325460Certificate of AnalysisJun 12, 2023 Z100682
F2325461Certificate of AnalysisJun 12, 2023 Z100682
F2325463Certificate of AnalysisJun 12, 2023 Z100682
F2325468Certificate of AnalysisJun 12, 2023 Z100682
E2318985Certificate of AnalysisMay 08, 2023 Z100682
E2318986Certificate of AnalysisMay 08, 2023 Z100682
E2318987Certificate of AnalysisMay 08, 2023 Z100682
E2318999Certificate of AnalysisMay 08, 2023 Z100682
D2315946Certificate of AnalysisApr 07, 2023 Z100682
D2315950Certificate of AnalysisApr 07, 2023 Z100682
D2315951Certificate of AnalysisApr 07, 2023 Z100682
D2315954Certificate of AnalysisApr 07, 2023 Z100682
C23161309Certificate of AnalysisMar 06, 2023 Z100682
C23161335Certificate of AnalysisMar 06, 2023 Z100682
C23161352Certificate of AnalysisMar 06, 2023 Z100682
C2317102Certificate of AnalysisMar 06, 2023 Z100682
B2306485Certificate of AnalysisJan 30, 2023 Z100682
B2306489Certificate of AnalysisJan 30, 2023 Z100682
B2306651Certificate of AnalysisJan 30, 2023 Z100682
G2315129Certificate of AnalysisJan 30, 2023 Z100682
K2229726Certificate of AnalysisDec 03, 2022 Z100682
K2223633Certificate of AnalysisNov 15, 2022 Z100682
K2223634Certificate of AnalysisNov 15, 2022 Z100682
K2223664Certificate of AnalysisNov 15, 2022 Z100682
K2223666Certificate of AnalysisNov 15, 2022 Z100682
J2209392Certificate of AnalysisSep 20, 2022 Z100682
J2209393Certificate of AnalysisSep 20, 2022 Z100682
J2209394Certificate of AnalysisSep 20, 2022 Z100682
J2209395Certificate of AnalysisSep 20, 2022 Z100682
H2212551Certificate of AnalysisAug 01, 2022 Z100682
H2212552Certificate of AnalysisAug 01, 2022 Z100682
H2212553Certificate of AnalysisAug 01, 2022 Z100682
H2212554Certificate of AnalysisAug 01, 2022 Z100682
G2220875Certificate of AnalysisJul 13, 2022 Z100682
G2220876Certificate of AnalysisJul 13, 2022 Z100682
G2220877Certificate of AnalysisJul 13, 2022 Z100682
G2220880Certificate of AnalysisJul 13, 2022 Z100682
F2210614Certificate of AnalysisJun 02, 2022 Z100682
F2210619Certificate of AnalysisJun 02, 2022 Z100682
F2210810Certificate of AnalysisJun 02, 2022 Z100682
F2210845Certificate of AnalysisJun 02, 2022 Z100682
C2209008Certificate of AnalysisMar 14, 2022 Z100682
C2209009Certificate of AnalysisMar 14, 2022 Z100682
C2209021Certificate of AnalysisMar 14, 2022 Z100682
C2209076Certificate of AnalysisMar 14, 2022 Z100682
A2219082Certificate of AnalysisJan 10, 2022 Z100682
A2219083Certificate of AnalysisJan 10, 2022 Z100682
A2219084Certificate of AnalysisJan 10, 2022 Z100682
A2219085Certificate of AnalysisJan 10, 2022 Z100682

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Chemical and Physical Properties

SolubilitySoluble in water.
SensitivityHygroscopic
Melt Point(°C)300°C

Safety and Hazards(GHS)

WGK Germany 3
Reaxy-Rn 4028195

Related Documents

 SDS

 Specification Sheet

Citations of This Product

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2. Linghong Zhang, Yi Liao, Meng Ye, Wenqin Cai, Meng Xiao, Changyan Hu, Benhe Zhong, Fang Wan, Xiaodong Guo.  (2023)  Regeneration of Spent Lithium Manganate Batteries into Al-Doped MnO2 Cathodes toward Aqueous Zn Batteries.  ACS Applied Materials & Interfaces,  15  (51): (59475–59481).  [PMID:38105603]
3. Baojun Wang, Rong Zheng, Weifeng Yang, Chengyi Hou, Qinghong Zhang, Kerui Li, Yaogang Li, Hongzhi Wang.  (2023)  Size-Complementary, High-Concentration Zincophilic Solute Molecules for Wide-Temperature-Range Aqueous Zinc Metal Batteries.  ACS Applied Energy Materials,  (24): (12249–12258).  [PMID:]
4. Ying Zheng, Ting Deng, Xiaoyuan Shi, Hengbin Zhang, Bo Liu, Xun Li, Weitao Zheng.  (2023)  Decoupled Design for Highly Efficient Perchlorate Anion Intercalation and High-Energy Rechargeable Aqueous Zn-Graphite Batteries.  Advanced Science,    (2306504).  [PMID:38064198]
5. Rui Sun, Siyang Dong, Xincheng Guo, Peng Xia, Shengjun Lu, Yufei Zhang, Haosen Fan.  (2024)  Construction of 2D sandwich-like Na2V6O16·3H2O@MXene heterostructure for advanced aqueous zinc ion batteries.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,  655  (15): (226).  [PMID:37944370]
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15. Weijia Liu, Chuqiao Hu, La Li, Guozhen Shen.  (2023)  Capacitance-Enhanced Microsupercapacitors with a Redox Electrolyte Additive for an All-MXene-Based Flexible Self-Powered Integrated Photodetecting System.  ACS Applied Energy Materials,  (14): (7387–7394).  [PMID:]
16. Mengmei Liu, Zhihua Li, Yibo Zhang.  (2023)  K-doped V2O5 derived from V-MOF precursor as high-performance cathode for aqueous zinc-ion batteries.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,  942  (117539).  [PMID:]
17. Mengmeng Liu, Yan Zhang, Zhao Xu, Xuguang Han, Wenshan Gou, Yifei Sun, Chang Ming Li.  (2023)  Highly Microporous Carbon from Enteromorpha for High-Performance Aqueous Zinc-chalcogen (S, SeS2) Batteries.  Batteries & Supercaps,  (7): (e202300145).  [PMID:]
18. Yang Dong, Ning Zhang, Zhaodong Wang, Jinhan Li, Youxuan Ni, Honglu Hu, Fangyi Cheng.  (2023)  Cell-nucleus structured electrolyte for low-temperature aqueous zinc batteries.  Journal of Energy Chemistry,  83  (324).  [PMID:]
19. Chao Lu, Zhi Yang, Yi Ding, Yujie Wang, Xiaolian Wang, Tao Li, Qiuyang Tan.  (2023)  Enhanced electrochemical performance of ammonium vanadate (NH4V4O10) cathode for rechargeable aqueous zinc-ion batteries by altering pH regulators.  Materials Today Communications,  35  (105993).  [PMID:]
20. Chaohua Sun, Rui Miao, Jipeng Li, Yanzhi Sun, Yongmei Chen, Junqing Pan, Yang Tang, Pingyu Wan.  (2023)  Green Environmentally Friendly “Zn(CH3SO3)2” Electrolyte for Aqueous Zinc-Ion Batteries.  ACS Applied Materials & Interfaces,  15  (16): (20089–20099).  [PMID:37043423]
21. Huiting Xu, Wenyue Yang, Huibin Liu, Meng Li, Siqi Gong, Fan Zhao, Chunli Li, Junjie Qi, Honghai Wang, Wenchao Peng, Xiaobin Fan, Jiapeng Liu.  (2023)  Boosting kinetics of tellurium redox reaction for high-performance aqueous zinc-tellurium batteries.  CHEMICAL ENGINEERING JOURNAL,  465  (142896).  [PMID:]
22. Wang Yu, Wang Tairan, Bu Shuyu, Zhu Jiaxiong, Wang Yanbo, Zhang Rong, Hong Hu, Zhang Wenjun, Fan Jun, Zhi Chunyi.  (2023)  Sulfolane-containing aqueous electrolyte solutions for producing efficient ampere-hour-level zinc metal battery pouch cells.  Nature Communications,  14  (1): (1-13).  [PMID:37005392]
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24. Miao Wang, Dong Yan, Tao Wu, Wen-Cui Li.  (2023)  Towards high energy density zinc-based nonaqueous hybrid supercapacitors via regulating oxygen substituents in carbon cathode.  Journal of Energy Storage,  63  (107076).  [PMID:]
25. Mengke Peng, Longbin Li, Li Wang, Xiannong Tang, Kang Xiao, Xuejiao J. Gao, Ting Hu, Kai Yuan, Yiwang Chen.  (2023)  Solute-solvent dual engineering toward versatile electrolyte for high-voltage aqueous zinc-based energy storage devices.  Fundamental Research,      [PMID:]
26. Jingmin Zhang, Weiwei Huang, Longwei Li, Caiyun Chang, Kai Yang, Lei Gao, Xiong Pu.  (2023)  Nonepitaxial Electrodeposition of (002)-Textured Zn Anode on Textureless Substrates for Dendrite-Free and Hydrogen Evolution-Suppressed Zn Batteries.  ADVANCED MATERIALS,  35  (21): (2300073).  [PMID:36861496]
27. Xuguang Han, Yan Zhang, Mengmeng Liu, Yifei Sun, Wenshan Gou, Zhao Xu, Chang Ming Li.  (2023)  In situ growth of amorphous vanadium oxide nanospheres on carbon cloth as free-standing cathodes used in high performance aqueous zinc-ion batteries.  Inorganic Chemistry Frontiers,  10  (7): (2125-2135).  [PMID:]
28. Lingjiang Kou, Yong Wang, Jiajia Song, Taotao Ai, Koji Kajiyoshi, Panya Wattanapaphawong, Jintao Wang.  (2023)  Morphology modulation and electrochemical performance properties of Mn-decorated (NH4)2V10O25·8H2O as a cathode material for aqueous zinc-ion batteries.  Reaction Chemistry & Engineering,  (5): (1185-1191).  [PMID:]
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34. Shunzhang You, Dao-Sheng Liu, Minghui Ye, Yufei Zhang, Yongchao Tang, Xiaoqing Liu, Cheng Chao Li.  (2023)  Graphite intercalation compounds (GICs) based multi-functional interface layer toward highly reversible Zn metal anodes.  CHEMICAL ENGINEERING JOURNAL,  454  (139907).  [PMID:]
35. Yuxuan Liu, Haiyan Tan, Zhiwei Tan, Xinhua Cheng.  (2023)  Rice husk-derived carbon materials for aqueous Zn-ion hybrid supercapacitors.  APPLIED SURFACE SCIENCE,  608  (155215).  [PMID:]
36. Jiawei Wang, Yan Yang, Yingyu Wang, Shuai Dong, Liwei Cheng, Yanmei Li, Zhenya Wang, Levent Trabzon, Hua Wang.  (2022)  Working Aqueous Zn Metal Batteries at 100 °C.  ACS Nano,  16  (10): (15770–15778).  [PMID:36066564]
37. Xiangjie Chen, Qingquan Kong, Xiaoqiang Wu, Xuguang An, Jing Zhang, Qingyuan Wang, Weitang Yao.  (2023)  V2O3@C optimized by carbon regulation strategy for ultra long-life aqueous zinc-ion batteries.  CHEMICAL ENGINEERING JOURNAL,  451  (138765).  [PMID:]
38. Weixing He, Tengteng Gu, Xijun Xu, Shiyong Zuo, Jiadong Shen, Jun Liu, Min Zhu.  (2022)  Uniform In Situ Grown ZIF-L Layer for Suppressing Hydrogen Evolution and Homogenizing Zn Deposition in Aqueous Zn-Ion Batteries.  ACS Applied Materials & Interfaces,  14  (35): (40031–40042).  [PMID:36031804]
39. Qixiang Zhang, Dandan Lei, Nishuang Liu, Zunyu Liu, Ziqi Ren, Jianyu Yin, Peixue Jia, Wenzhong Lu, Yihua Gao.  (2022)  A Zinc-Ion Battery-Type Self-Powered Pressure Sensor with Long Service Life.  ADVANCED MATERIALS,  34  (40): (2205369).  [PMID:35986663]
40. Fan Zhao, Siqi Gong, Huiting Xu, Meng Li, Lina Li, Junjie Qi, Honghai Wang, Zhiying Wang, Yuqi Hu, Xiaobin Fan, Chunli Li, Jiapeng Liu.  (2022)  In situ constructing amorphous V2O5@Ti3C2Tx heterostructure for high-performance aqueous zinc-ion batteries.  JOURNAL OF POWER SOURCES,  544  (231883).  [PMID:]
41. Weijia Liu, La Li, Chuqiao Hu, Di Chen, Guozhen Shen.  (2022)  Intercalation of Small Organic Molecules into Ti3C2Tx MXene Cathodes for Flexible High-Volume-Capacitance Zn-Ion Microsupercapacitor.  Advanced Materials Technologies,  (12): (2200158).  [PMID:]
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44. Chenchen Ji, Dandan Wu, Zhibo Liu, Hongyu Mi, Yinnian Liao, Mingzai Wu, Haonan Cui, Xixian Li, Tianlong Wu, Zhengyu Bai.  (2022)  Natural Polysaccharide Strengthened Hydrogel Electrolyte and Biopolymer Derived Carbon for Durable Aqueous Zinc Ion Storage.  ACS Applied Materials & Interfaces,  14  (20): (23452–23464).  [PMID:35546577]
45. Min Zhou, Jiajun Ma, Wensheng Yang, Shengshang Lu, Benfu Tao, Liren Qiu, Xinhai Wang, Quan Xie, Yunjun Ruan.  (2022)  Carbon-coated Vanadium Oxide Nanoflowers with K+ Ions Pre-embedment as a High-rate Cathode for Zinc-Ion Batteries.  ChemNanoMat,  (6): (e202200047).  [PMID:]
46. Zenghui Zhao, Sufeng Zhu, Bo Li, Chenguang Niu, Yu Tong, Ning Ma, Xufeng Dong, Baoguo Han, Hao Huang, Min Qi.  (2022)  A Stiffness Tunable Self-Healing Composite Comprising PDMS and Titanium Dioxide.  ACS Applied Polymer Materials,  (4): (2656–2663).  [PMID:]
47. Guoshen Yang, Jialei Huang, Xuhao Wan, Binbin Liu, Yachao Zhu, Jiawei Wang, Olivier Fontaine, Shiqiang Luo, Pritesh Hiralal, Yuzheng Guo, Hang Zhou.  (2022)  An aqueous zinc-ion battery working at −50°C enabled by low-concentration perchlorate-based chaotropic salt electrolyte.  EcoMat,  (2): (e12165).  [PMID:]
48. Wen Liu, Peng Guo, Tianyu Zhang, Xiawei Ying, Fengling Zhou, Xinyi Zhang.  (2022)  Rational Electrode–Electrolyte Design for Long-Life Rechargeable Aqueous Zinc-Ion Batteries.  Journal of Physical Chemistry C,  126  (3): (1264–1270).  [PMID:]
49. Longwei Li, Lanshuang Zhang, Wenbin Guo, Caiyun Chang, Jing Wang, Zifeng Cong, Xiong Pu.  (2021)  High-performance dual-ion Zn batteries enabled by a polyzwitterionic hydrogel electrolyte with regulated anion/cation transport and suppressed Zn dendrite growth.  Journal of Materials Chemistry A,  (43): (24325-24335).  [PMID:]
50. Cholho Choe, Ling Yang, Zhanao Lv, Wanling Mo, Zhuqi Chen, Guangxin Li, Guochuan Yin,.  (2015-04-24)  Redox-inactive metal ions promoted the catalytic reactivity of non-heme manganese complexes towards oxygen atom transfer..  Dalton transactions (Cambridge, England : 2003),  44  ((19)): ( 9182-9192 ).  [PMID:25904197]

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