1) racemic lactide
外消旋丙交酯
2) meso-lactide
内消旋丙交酯
1.
In this paper, we systematically reviewed the researches on meso-lactide including its preparation, separation, purification and application.
以材料的制备、分离提纯、应用进展等为着眼点,系统综述了内消旋丙交酯的研究现状。
2.
In this paper,the basic performances of the levorotatory lactide,dextrorotatory lactide,racemic lactide and meso-lactide are summarized,the preparation and purification methods are reviewed.
该文就D型、L型、外消旋和内消旋丙交酯的结构、熔点等物理化学性能进行综述,并就内消旋丙交酯的合成和分离方法等进行了总结。
3) meso-lactide polymer
内消旋丙交酯聚合物
4) L-Lactide
左旋丙交酯
1.
monomer to catalyst mole ratio and purity of supercritical carbon dioxide on relative molecular mass of poly(L-lactide.
以辛酸亚锡为催化剂,用超临界CO2作溶剂,实现了左旋丙交酯的开环聚合,系统地研究了催化剂用量、单体浓度、聚合时间、聚合温度、CO2纯度和压力等因素对单体转化率、聚合产物相对分子质量及其分布的影响。
2.
Adopting self-made(Sn(Oct)2) organic solvent as the catalyst,under low-temperature and decompression conditions,high molecular weight poly(L-lactide) (PLLA) was synthesized by microwave radiation.
采用自制的辛酸亚锡(Sn(Oct)2)有机溶剂为催化剂,以微波辐射为热源,在低温减压条件下引发左旋丙交酯(LLA)开环聚合,快速高效地合成性能良好的高分子量左旋聚乳酸(PLLA)。
5) PLLA
聚左旋丙交酯
1.
Objective To explore the biocompatibility of the Poly(l-lactic acid)(PLLA) nano-fibrous scaffold with spinal cord tissue of rats.
目的探讨聚左旋丙交酯[Poly(l-lactic acid),PLLA]纳米纤维支架与大鼠脊髓组织的相容性。
2.
The synthesized material keeps almost the same outstanding cell biocompatibility as PLLA.
结果表明:与聚左旋丙交酯(PLLA)相比,共聚物的拉伸强度由原来的54。
6) tropic acid
邻苯间羟基丙酸<外消旋>
补充资料:外丙
外丙,商代天子,商开国君主37209.htm>汤之子,汤的太子太丁早死,乃立太丁弟外丙为王,是为外丙元年,2814.htm>伊尹摄政。外丙即位后三年卒,传位其弟320008.htm>仲壬。