Phone: 86-13022869828
Mail: sales28@interlgroup.com
Add: Room 305 , 3/F , Haipai Decoration Office Building , Yudu Avenue , Yuncheng , Shanxi
Ascorbyl glucoside powder Raw Materials CAS 129499-78-1
Product Overview:
Ascorbyl glucoside powder, also known as VC glucoside, is a derivative of VC, with a relative molecular mass of 338.27 and a melting point of 158.5-159.5°C. Ascorbyl glucoside CAS 129499-78-1 can be used instead of VC as an acidulant, reductant, antioxidant, bleaching agent, and stabilizer. Ascorbyl glucoside Raw Materials is widely used in cosmetics, food and pharmaceuticals.
Ascorbyl glucoside powder Raw Materials CAS 129499-78-1 Attributes
MF:C12H18O11
MW:338.26
EINECS:425-980-0
Specification:Ascorbyl glucoside powder
Sample:Ascorbyl glucoside powder
Brand:Ascorbyl glucoside powder
Appearance: white powder
Storage: Cool Dry Place
Brand: Globalchemical
Shelf Life: 2 Years
Test Method: HPLC
Ascorbyl glucoside powder Raw Materials CAS 129499-78-1 Details
Uses and synthesis of Ascorbyl glucoside powder
Ascorbyl glucoside powder, also known as VC glucoside, is a derivative of VC, with a relative molecular mass of 338.27 and a melting point of 158.5-159.5°C. Ascorbyl glucoside CAS 129499-78-1 can be used instead of VC as an acidulant, reductant, antioxidant, bleaching agent, and stabilizer. Ascorbyl glucoside Raw Materials is widely used in cosmetics, food and pharmaceuticals.
Applications / Functions of Ascorbyl glucoside powder
Ascorbyl glucoside powder is one of the whitening additives approved by the Department of Health, and is recognised as the most stable vitamin C derivative. It is also the most commonly used whitening ingredient by major brands.
Physicochemical Property of Ascorbyl glucoside powder
Ascorbyl glucoside CAS 129499-78-1 is a derivative of VC, with a relative molecular mass of 338.27, and a melting point of 158.5-159.5℃. Because VC has the disadvantages of poor stability, easy to be oxidised and so on.
Production methodprocess of Ascorbyl glucoside powder
- Step 1: Ascorbyl glucoside reaction solution was separated by nanofiltration to remove the residual VC in the reaction solution, and the nanofiltration concentrate was obtained;
- Step 2: the nanofiltration concentrate is separated by a continuous fluid separation device to remove glucose from the VC glucoside reaction solution;
- Step 3: the VC glucoside solution from the continuous fluid separation device is first adjusted to pH by a cation resin, and then concentrated by a nanofiltration membrane, removing inorganic salts in the reaction solution, and obtaining the VC glucoside concentrate;
- Step 4: The VC glucoside concentrate is concentrated by reduced pressure distillation to further increase the concentration of VC glucoside, and then crystallised to obtain Ascorbyl glucoside Raw Materials .