Bipolar Membrane Suppliers USA
Find where to buy products from suppliers in the USA, including: distributors, industrial manufacturers in America, bulk supplies and wholesalers of raw ingredients & finished goods.
Search for products or services, then visit the American suppliers website for prices, SDS or more information. You can also view suppliers in Australia, NZ or the UK.
Product | Description | |
---|---|---|
Bipolar Membranes for acid and alkali recovery Quick inquiry Where to buy Suppliers range | Bipolar Membranes for acid and alkali recovery. Uses: ·Acid and alkali recovery ·Preparation and recovery of organic acids (vitamin C, amino acids, tartaric acid, gluconic acid, etc.). Group: Bipolar Membranes. | |
Bipolar Membranes for stationary Fuel Cell,Higher conductivity Quick inquiry Where to buy Suppliers range | Bipolar Membranes for stationary Fuel Cell,Higher conductivity. Uses: Stationary Fuel Cell. Group: Bipolar Membranes. | |
Bipolar Membranes for stationary Fuel Cell,Standard Quick inquiry Where to buy Suppliers range | Bipolar Membranes for stationary Fuel Cell,Standard. Uses: Stationary Fuel Cell. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:140??m-250??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:140??m-250??m. Uses: ·Treatment and recycling of salty wastewater · Direct production of hydrochloric acid and sodium hydroxide from salt (sodium chloride) · Direct production of vitamin C from vitamin C sodium salt · Direct production of tartaric acid from sodium tartrate · Direct production of lactic acid from sodium lactate · Direct production of gluconic acid from sodium gluconate · Direct production of methanesulfonic acid from sodium methanesulfonate · Direct separation of amino acids from fermentation broth ·Return from sodium acetate wastewater. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:150??m-250??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:150??m-250??m. Uses: ·Preparation of inorganic acids and bases ·Flue gas desulfurization. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:15??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:15??m. Uses: Automotive. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:160??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:160??m. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:180??m-200??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:180??m-200??m. Uses: Water decomposition. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:30??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:30??m. Uses: Stationary Fuel Cell. Group: Bipolar Membranes. | |
Bipolar Membranes,Thickness:50??m Quick inquiry Where to buy Suppliers range | Bipolar Membranes,Thickness:50??m. Uses: Stationary Fuel Cell. Group: Bipolar Membranes. | |
12:0 Diether PC:Chol (70:30) Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
13:0 Diether PC:Chol (70:30) Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
14:0 Diether PC:Chol (70:30) Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
16:0 Diether PC:Chol (70:30) Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
16:0 Diether PC Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
18:0 Diether PC:Chol (70:30) Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
18:0 Diether PC Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
18:1 Diether PC:Chol (70:30) Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
18:1 Diether PC Liposomes Quick inquiry Where to buy Suppliers range | Ether lipids are peroxisome-derived glycerophospholipids in which the hydrocarbon chain at the sn-1 position of the glycerol backbone is attached by an ether bond, as opposed to an ester bond in the more common diacyl phospholipids. One hand, the ether bonds are more stable than ester linkages over a wide range of acidic or alkaline pH, one the other hand, stability properties of the liposomes is enhanced by bipolar lipids, and the saturated alkyl chains gives stability towards degradation in oxidative conditions. Besides, the unusual stereochemistry of the glycerol backbone enhance the resistance against the attacks by other organism phospholipases. Uses: Control liposomes, membrane biology. Group: Plain liposome. | |
Amisulpride hydrochloride Quick inquiry Where to buy Suppliers range | Amisulpride hydrochloride could inhibit radioligand binding to native dopamine D2 receptor in membranes from the rat striatum with an IC50 value of 21nM. It has been revealed to displace [3H]raclopride binding in vivo with an ED50 value of 17.3±1.86mg/kg in the rat limbic system. It has been noted to inhibit quinpirole-induced [3H]thymidine with an IC50 value of 22±3nM. It is used to treat psychosis in schizophrenia and episodes of mania in bipolar disorder. It has been approved in February 2002 by FDA. Uses: Amisulpride hydrochloride is used to treat psychosis in schizophrenia and episodes of mania in bipolar disorder. Synonyms: DAN 2163 hydrochloride; DAN2163 hydrochloride; DAN-2163 hydrochloride; 4-amino-N-[(1-ethylpyrrolidin-2-yl)methyl]-5-ethylsulfonyl-2-methoxybenzamide;hydrochloride. Grades: >98%. CAS No. 81342-13-4. Molecular formula: C17H28N3O4SCl. Mole weight: 405.94. |