1.
Study on Maillard Reaction Intermediate;
Maillard反应中间体的研究
2.
The Study of the Reaction Mechanism of Bromination of Aqueous Acetone Solution(Ⅰ)--ab initio Calculation for the Reactive Intermediate of the Reaction
丙酮溴化反应机理的研究(Ⅰ) 从头计算法研究反应中间体
3.
The ab Initio Calculation Method to Study Electrostatic Potentials of the Reactive Intermediate
从头计算法研究反应中间体的静电势(英文)
4.
Study on Scavenging the Tobacco Free-radical by Maillard Reaction Intermediate;
Maillard反应中间体降低卷烟自由基作用的研究
5.
Study on Synthesis of Furanone Flavors and Maillard Intermediates-Cysteine Model System
呋喃酮类香料合成及Maillard反应中间体与半胱氨酸模型体系的研究
6.
Reaction Mechanism of Bromation of Aqueous Acetone Solution(Ⅱ) ab initio Calculation for Rotational Barrier of Reactive Intermediate
丙酮溴化反应机理的研究(Ⅱ) 从头计算法研究反应中间体的旋转势垒
7.
Preparation of Starch Polyether Polyols Catalyzed by HPA;
杂多酸催化合成淀粉聚醚多元醇及其反应中间体稳定性及反应活性的量子化学研究
8.
The Synthesis of Several Drug Intermediates Based on Knevenagel Condensation;
基于Knoevenagel缩合反应的若干药物中间体的合成
9.
On Relationship Between the Stability of Activated Intermediate in Organic Chemical Reaction and the Activity of Reaction;
有机化学活性中间体稳定性与反应活性的关系
10.
APPLICATION OF SPLICING TIME PROFILE OF REFLECTION WAVE IN LANDSLIDE INVESTIGATION
反射波拼接时间剖面在滑坡体勘查中的应用
11.
Simulation study of liquid residence time distributions in opposed compound reactor
复合床反应器中液体停留时间分布模拟研究
12.
Research on Olefin Isomerization Reaction in Ionic Liquids and Synthesis of Drug Intermediates
离子液体中烯烃异构化反应的研究和药物中间体的合成
13.
Several liquid crystals and intermediates were synthesized with this new technique.
通过微波反应合成一系列常用的含氰类液晶单体和中间体。
14.
The Research on Kinetic Process of Complicated Reaction with Reactive Intermediates;
具有活性中间体的复杂反应体系的动力学过程解析
15.
Application of RP-IPC in Analysis of Dyes and Intermediates
反相离子对色谱法在染料及其中间体分析中的应用
16.
Investigation of Free Radical Intermediates of Formaldehyde Photocatalytic Degradation by Electron Paramagnetic Resonance
甲醛在光催化降解反应中自由基中间体的电子顺磁共振研究
17.
Fluorination of the chlorohydrocarbon is substitution nucleophilic unimolecular. This fluorinated reaction is decided by the stability of intermediate R+.
氯代烃的氟化是单分子亲核取代反应,其氟化反应的进程决定于中间体R+稳定性。
18.
Just as expected, large amount of oxalic acid are found in the reaction system and its concentration increases as the reaction time increases.
正如预期的那样,反应体系中大量草酸被检测到,并且随着反应时间的增加,其浓度不断升高。