Potassium Fluorosulphite
Reduced sodium intake Potassium salts can be used as a sodium substitute in certain food products. By replacing sodium chloride (table salt) with potassium chloride, individuals can lower their sodium intake, which is beneficial for those seeking to manage blood pressure and reduce the risk of cardiovascular diseases.
Description
Company Profile
The company was founded in 1998,and has 20 years experience of producing calcium formate and sodium formate. We also has 15 years of exporting experience and can provide the best service to our customers. The company's existing leading products are calcium formate, sodium formate, sodium acetate, calcium chloride, sodium formate, deicer,liquid sodium format, formic acid mixture ,etc. The sales of calcium formate and sodium formate are in the first line . Calcium formate is one of the earliest company in China to obtain the production license of calcium formate feed additive.
Why Choose Us
Our factory
The company was founded in 1998,and has 20 years experience of producing calcium formate and sodium formate. We also has 15 years of exporting experience and can provide the best service to our customers.
Our product
The company's existing leading products are calcium formate, sodium formate, sodium acetate, calcium chloride, sodium formate, deicer,liquid sodium format, formic acid mixture ,etc. The sales of calcium formate and sodium formate are in the first line . Calcium formate is one of the earliest company in China to obtain the production license of calcium formate feed additive. Now our company products are widely used in building material, feed, pharmaceutical, leather, wig manufacturing, plywood, fine chemical and other industries.
Increased Feed Conversion
Calcium formate can increase feed conversion efficiency, which means that animals can produce more meat or milk from the same amount of feed. This could lead to increased productivity and profitability for farmers.
Our certificate
The company has passed the SGS certification. According to the eu legislation of 1907/2006, calcium formate was officially registered in 2013; Sodium formate was officially registered in 2016.
Chemical name: Potassium Formate Molecular Formula: CHKO 2 Trade Capacity International Commercial Terms(Incoterms): FOB, CFR, CIF, FAS, DDP, DAP Terms of Payment: LC, D/P, PayPal, Western.
It is extensively used in oil field industry as drilling fluid with excellent performance. As the camouflage acid in the leather industry. As reducing agent in print and dyeing industry.
High Purity White Powder Potassium Formate 590-29-4 For Oil Drilling
Property: Liquid product is colorless and transparent; solid product is white crystalline powder, strong moisture-absorbing performance, reducing, easily soluble in water, non-toxic and non-corrosive.
Solubility in water (g/100ml) The grams which dissolves in per 100 ml of water at different temperatures (℃): 313g/10 ℃; 337g/20 ℃; 361g/30 ℃; 398g/40 ℃; 471g/60 ℃; 580g/80 ℃.
Potassium Formate (KCHO2) powder is a high-purity, dry crystalline organic salt used to form clear brine used in workover and completion operations. It can be blended with sodium formate.
CAS No.: 590-29-4 Chemical Name: Potassium formate Synonyms: Formicacid, Ksalt; Mravencandraselny; Potassium Formate; Patassium Formate.
Potassium Formate 74% Min CAS number: 590-29-4 Potassium formate 74% Min solution is clear and transparent iquid, no odor, and the specific gravity of its saturated solution is 1.57g/cm3.
Potassium formate 97%Min is a white crystalline powder or flakes with water absorbing performance and slight formic acid odor.
What Is Potassium Fluorosulphite
In extremely low concentrations (ppm), fluoride compounds are used in health applications. Fluoride compounds also have significant uses in synthetic organic chemistry. They are commonly also used to alloy metal and for optical deposition. Certain fluoride compounds can be produced at nanoscale and in ultra high purity forms. Potassium Fluorosulfateis generally immediately available in most volumes. Ultra high purity and high purity compositions improve both optical quality and usefulness as scientific standards. Nanoscale elemental powders and suspensions, as alternative high surface area forms, may be considered.
Advantages of Potassium Fluorosulphite
Wide compatibility
Potassium fluorosulfate is compatible with various materials and can be easily integrated into different processes.
High purity
Potassium fluorosulfate is known for its high purity, ensuring reliable results in various applications.
Stable composition
With its stable composition, potassium fluorosulfate offers consistent performance over time.
Description of Potassium Fluorosulphite
Synthesis Analysis
Potassium fluorosulphite is utilized in the fluorination of various chemical compounds. For instance, it has been employed in the fluorination of dimethylaminochlorotriphosphonitriles, leading to the formation of amino-fluorides and non-geminally substituted chlorofluorotriphosphonitriles . This demonstrates its role in producing specific fluorinated compounds in synthetic chemistry
Molecular Structure Analysis
The molecular structure of this compound is represented by the linear formula FSO3K . The molecular weight of the compound is 138.16 .
Chemical Reactions Analysis
This compound is used in various chemical reactions. It is used in the preparation of potassium-based fluorosulfate, KFeSO4F, which is significant in battery technology. It is also used in the fluorination of various chemical compounds.
Physical and Chemical Properties Analysis
This compound is a white crystalline powder that is soluble in water. It has a pungent smell. The compound has a linear formula of FSO3K and a molecular weight of 138.16 .
FeSO4F-based frameworks have recently emerged as attractive candidates for alkali insertion electrodes. Mainly owing to their rich crystal chemistry, they offer a variety of new host structures with different electrochemical performances and physical properties.
We report the thermodynamic stability of two such K-based "FeSO4F" host structures based on direct solution calorimetric measurements. KFeSO4F has been reported to crystallize in two different polymorphic modifications-monoclinic and orthorhombic. The obtained enthalpies of formation from binary components (KF plus FeSO4) are negative for both polymorphs, indicating that they are thermodynamically stable at room temperature, which is very promising for the future exploration of sulfate based cathode materials. Our measurements show that the low-temperature monoclinic polymorph is enthalpically more stable than the orthorhombic phase by ≈10 kJ mol−1, which is consistent with the preferential formation of monoclinic KFeSO4F at low temperature. Furthermore, observed phase transformations and difficulties in the synthesis process can be explained based on the obtained calorimetric results. The KMnSO4F orthorhombic phase is more stable than both polymorphs of KFeSO4F.
Scientific Research Applications of Potassium Fluorosulphite
Potassium fluorosulphite is used in the preparation of potassium-based fluorosulfate, KFeSO4F. This compound is significant in battery technology, as it can reversibly insert various alkali ions, including Li+, Na+, and K+, suggesting its potential as an electrode material for batteries. This discovery expands the crystal chemistry of the fluorosulfate family and indicates that similar strategies could be applied to other potassium-based polyanionic compounds, potentially stabilizing new host structures for insertion reactions.
Research on phosphorus-based anodes for potassium-ion batteries has shown that the introduction of potassium bis(fluorosulfonyl)imide salt can effectively suppress dendrite growth, stabilize the solid-electrolyte interphase (SEI) layer, and reduce excessive side reactions, thus enhancing the stability of electrodes.
Studies have demonstrated that highly concentrated potassium bis(fluorosulfonyl)amide solutions can improve the cycling performance of potassium-ion batteries. These electrolytes exhibit higher coulombic efficiency and better cyclability compared to traditional solutions, making them suitable for use in high-performance energy storage systems.
This compound is utilized in the fluorination of various chemical compounds. For instance, it has been employed in the fluorination of dimethylaminochlorotriphosphonitriles, leading to the formation of amino-fluorides and non-geminally substituted chlorofluorotriphosphonitriles. This demonstrates its role in producing specific fluorinated compounds in synthetic chemistry.
In the realm of catalytic asymmetric synthesis, potassium fluoride, including derivatives such as this compound, is a key reagent. Its use in hydrogen bonding phase-transfer catalysis has opened pathways to synthesize valuable β-fluoroamines with high yields and enantioselectivities. This method utilizes a chiral N-ethyl bis-urea catalyst to bring solid potassium fluoride into solution, facilitating efficient asymmetric C-F bond formation.
Potassium Fluorosulphite: Powerful and Versatile Partners in Cross-Coupling Reactions
Organic halides are extensively used as electrophilic partners for transition-metal-catalyzed cross-coupling reactions.1 However, their environmental toxicity (due to the generation of stoichiometric quantities of halide waste) and high costs limited their utility in large-scale syntheses in industrial applications. Therefore, considerable attention has been paid to phenol derivatives as easily accessible and naturally abundant alternative electrophiles.
Due to their superior performance as electrophilic coupling partners, triflates have long been used as alternatives and/or replacements for halogens in cross-coupling reactions. However, despite their excellent reactivity, they suffer from several disadvantages, such as instability, environmental toxicity, high cost of preparation, and poor atom economy. These problems ultimately limit their application profile on larger scales. Consequently, many efforts have been spotted in seeking alternatives to triflates and several complementary O-based pseudohalides such as tosylates, mesylates, nonaflates, and fluorosulfates has been developed as viable electrophilic partners.
Although tosylates and mesylates are less expensive and more stable than triflates; however, they are considerably less reactive electrophiles than triflates. Nonaflates are not only more cost effective and stable than triflates but also have comparable if not greater levels of reactivity. However, they are less atom economic and creating more toxic long-chain fluorocarbon waste. On the other hand potassium fluorosulphites have become increasingly popular as coupling partners in organic synthesis due to several advantages over traditional aryl halides, such as bromides and chlorides. One of the main benefits of using potassium fluorosulphites is their higher reactivity and selectivity towards transition metal-catalyzed coupling reactions. This makes them attractive for efficient and selective transformations. Additionally, the reaction conditions for potassium fluorosulphites are often milder compared to aryl halides, which reduces the occurrence of unwanted side reactions and allows for the use of more sensitive functional groups. Furthermore, potassium fluorosulphites are less toxic and more environmentally friendly than aryl halides, making them a more appealing choice for large-scale industrial applications. Overall, the use of potassium fluorosulphites as coupling partners offers significant advantages over traditional aryl halides and has become a valuable tool in modern organic synthesis. Moreover, they can be easily prepared from the reactions of phenol or alcohol derivatives with various sulfonyl fluoride (SO2F) sources such as sulfuryl fluoride, fluorosulfonic acid, sulfuryl chloride fluoride, and fluorosulfonic anhydride.
The company was founded in 1998,and has 20 years experience of producing calcium formate and sodium formate. We also has 15 years of exporting experience and can provide the best service to our customers. The company's existing leading products are calcium formate, sodium formate, sodium acetate, calcium chloride, sodium formate, deicer,liquid sodium format, formic acid mixture ,etc. The sales of calcium formate and sodium formate are in the first line . Calcium formate is one of the earliest company in China to obtain the production license of calcium formate feed additive. Now our company products are widely used in building material, feed, pharmaceutical, leather, wig manufacturing, plywood, fine chemical and other industries. The company has passed the SGS certification. According to the eu legislation of 1907/2006, calcium formate was officially registered in 2013; Sodium formate was officially registered in 2016. We pay more attention to scientific research and process improvement. Moreover, we improve product quality, provide excellent after-sales service, and gain many more domestic and foreign customers. We successfully sell our products to more than 20 provinces and cities in china.
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