- Sulfur-containing additive based on ethylene sulfate, electrolyte containing sulfur-containing additive and lithium ion battery
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The invention provides a sulfur-containing additive based on ethylene sulfate, an electrolyte containing the sulfur-containing additive and a lithium ion battery, belongs to the technical field of lithium ion batteries, and aims to improve the stability of an SEI film and improve the Li conductivity of the SEI film so as to improve the high and low temperature performance of the lithium ionbattery. The structural formula of the additive is based on ethylene sulfate, and an organic molecular chain segment containing a lithium salt functional group is grafted on a cyclic molecular structure of the additive.
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Paragraph 0077-0081
(2020/12/29)
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- Synthetic method of cyclosulphate
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The invention discloses a synthetic method of cyclosulphate. A peroxysulfate solution is pre-synthesized through sulfuric acid and hydrogen peroxide, then under existence of an organic solvent, a metal inorganic compound and a catalyst, the peroxysulfate solution is dropwise added to generate a catalytic oxidation reaction with cyclosulfite, after the reaction is completed, salt residue is filtered out, still standing for layering is conducted, an organic layer is taken to be distilled, concentrated and purified, and a cyclosulphate high-quality product is obtained. According to the syntheticmethod of the cyclosulphate, the cheap sulfuric acid and hydrogen peroxide are used as the raw materials, the peroxysulfate solution is prepared to conduct catalytic oxidation on the cyclosulfite, onthe one hand, the reaction is mild, control is easy, and the reaction conversion rate is high; on the other hand, the evaporation capacity of water is small, energy consumption is low, generated wastewater is less, and a synthetic process is more environmentally friendly; and the prepared cyclosulphate is few in impurity, high in purity and wide in market prospect.
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Paragraph 0058; 0059; 0060
(2019/11/13)
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- Cyclic sulphate preparation method
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The invention relates to the field of organic synthesis and especially relates to a cyclic sulphate preparation method. The sulphate preparation method disclosed by the invention comprises the step ofreacting a compound shown in formula II with sulfuryl chloride under the reaction solvent existence condition to prepare and obtain a compound shown in formula I. The sulphate preparation method disclosed by the invention has the characteristics of brief steps, small side reaction, simpleness in aftertreatment, small three wastes, low manufacturing cost, suitability for industrial large-scale production and the like.
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Paragraph 0083; 0084; 0085
(2018/09/11)
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- Sulfate preparation method
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The invention relates to the field of organic synthesis, and especially relates to a sulfate preparation method. The invention provides a sulfate preparation method. According to the preparation method, a compound represented by a formula (II) reacts with sulfuryl fluoride in the presence of a reaction solvent to prepare a compound represented by a formula (I). During the sulfate preparation process, the introduction of water and chlorine ions is avoided effectively, the situation that the product is degraded and the chlorine ion content is high is avoided therefore; moreover, the steps of thepreparation method are simple and short, the raw material are common chemical products on the market, the kinds of raw materials and the side reactions are few, and the yield is high. The manufacturing cost is low, only recyclable organic solvents are used, the reaction byproduct is a single inorganic salt solid and can be easily recovered, no wastewater is generated, the environment is better protected, and the sulfate preparation method is green and environmentally friendly and is suitable for industrial large scale production.
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Paragraph 0078; 0079; 0080; 0081
(2018/09/11)
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- Preparation method of cyclic sulfate
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The invention relates to the field of organic synthesis, in particular to a preparation method of cyclic sulfate. The structural formula of cyclic sulfate is shown as formula I. The preparation methodof cyclic sulfate comprises the following step: cyclic sulfate in the formula I is prepared from a compound in formula II and sulfuryl fluoride by reacting in the presence of an acid binding agent and a catalyst. The preparation method of cyclic sulfate adopts short reaction step, cyclic sulfate can be prepared with the one-step reaction, cost of raw and auxiliary materials is low, and expensiveraw materials and oxidizing agent are not used.
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Paragraph 0082; 0083; 0084; 0085
(2018/03/28)
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- Potent ketoamide inhibitors of HCV NS3 protease derived from quaternized P1 groups
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Blood borne hepatitis C infections are the primary cause for liver cirrhosis and hepatocellular carcinoma. HCV NS3 protease, a pivotal enzyme in the replication cycle of HCV virus has been the primary target for development of new drug candidates. Boceprevir and telaprevir are two novel ketoamide derived inhibitors that are currently undergoing phase-III clinical trials. These inhibitors include ketoamide functionality as serine trap and have an acidic alpha-ketoamide center that undergoes epimerization under physiological conditions. Our initial attempts to arrest this epimerization by introducing quaternary amino acids at P1 had resulted in significantly diminished activity. In this manuscript we describe alpha quaternized P1 group that result in potent inhibitors in the enzyme assay and demonstrate cellular activity comparable to boceprevir.
- Venkatraman, Srikanth,Velazquez, Francisco,Wu, Wanli,Blackman, Melissa,Madison, Vincent,Njoroge, F. George
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scheme or table
p. 2151 - 2155
(2010/06/19)
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- Peptide-Based Inhibitors of the Hepatitis C Virus NS3 Protease: Structure-Activity Relationship at the C-Terminal Position
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The structure-activity relationship at the C-terminal position of peptide-based inhibitors of the hepatitis C virus NS3 protease is presented. The observation that the N-terminal cleavage product (DDIVPC-OH) of a substrate derived from the NS5A/5B cleavag
- Rancourt, Jean,Cameron, Dale R.,Gorys, Vida,Lamarre, Daniel,Poirier, Martin,Thibeault, Diane,Llinàs-Brunet, Montse
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p. 2511 - 2522
(2007/10/03)
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