方案摘要
方案下载应用领域 | 制药/生物制药 |
检测样本 | 化药新药研发 |
检测项目 | 其他>方法开发 |
参考标准 |
The application principle injected samples onto a separation column to cleave individual peaks and transfer these peaks onto secondary dual chiral columns for separation. Automated and complete purification of analytes with high resolution of the separated enantiomers provided speedy purification, efficient separation, and simplified collection of chiral analytes, eliminating the need for extensive sample cleanup.
Pharmaceutical laboratories, as part of a chiral drug investigation, may be asked to
provide separations of all chiral compounds to facilitate the testing of individual
enantiomers (1). Sample cleanup prior to purification is a factor in reducing the cost
and time of semi‐preparative purification, resulting from the typical high cost and
fragility of chiral sorbents. To eliminate exhaustive sample cleanup procedures, a
complete automation of the analyte purification and chiral separation was
developed. The application principle injected samples onto a separation column to
cleave individual peaks and transfer these peaks onto secondary dual chiral columns
for separation. Automated and complete purification of analytes with high
resolution of the separated enantiomers provided speedy purification, efficient
separation, and simplified collection of chiral analytes, eliminating the need for
extensive sample cleanup.
(GPC)凝胶色谱法清洁食用油中的塑料添加剂(R)-(+)-1-苄基丙三醇
(GPC)凝胶色谱法清洁食用油中的塑料添加剂1-乙酸甘油酯
(GPC)凝胶色谱法清洁食用油中的塑料添加剂3-甲基-1,2-环戊二酮
相关产品
关注
拨打电话
留言咨询