1.
Enthalpies of Formation and C-C Bond Dissociation Energies of C_1-C_(14) Alkanes and Alkyl Radicals Calculated via Density Functional Theory Methods
密度泛函法计算C_1-C_(14)正构烃生成焓及C—C键裂解能
2.
Researches on the Enzymatic Hydrolysis of Pyrophosphate by Human Serum Transferrin and Bovine Lactoferrin
血清传铁蛋白和乳传铁蛋白裂解焦磷酸键的酶学功能研究
3.
Desige and Development of Pandemic Influenza Vaccine Using Reverse Genetics;
大流行流感裂解疫苗的研制及关键技术的研究
4.
Research on Several Key Technologies of High Consistence and Difficult Decomposition Industrial Wastewater by Ultrasonic Decompose Method;
高浓度、难降解工业废水超声裂解若干关键技术的研究
5.
Research on the Key Technologies of High Consistence and Difficult Decomposition Industrial Wastewater by Ultrasonic Decompose Method;
高浓度、难降解有机污水超声聚焦裂解处理关键技术的研究
6.
Cleavage of secondary bonds can also be responsible for polymer deterioration.
次价键的分裂往往也能引起聚合体劣化。
7.
the hydrolysis of proteins into peptides and amino acids by cleavage of their peptide bonds.
通过缩氨键的分裂把蛋白质水解为缩氨酸和氨基酸的过程。
8.
Key Pathway Simulation of Ethanol Cracking in Hydrogen Production by Plasma Reforming
含水乙醇等离子体重整制氢中乙醇裂解的关键路径模拟
9.
Cleavage of amide bond during glycopeptide enrichment using wheat germ agglutinin affinity chromatography
麦胚凝集素亲和色谱富集糖肽过程中的肽键裂解
10.
A Study on Performance Optimization for 492 Dissociated Methanol Engine
492甲醇裂解气发动机性能优化研究
11.
ENERGY SAVING MODIFICATION OF SRT-Ⅲ FURNACES CRACKING IN ETHYLENE PLANT
乙烯装置SRT-Ⅲ型裂解炉节能改造分析
12.
Stabilizing the Houses Price is Pivotally Going to Perfect the Government s Function;
稳定房价的关键是解决政府职能失位
13.
The breaking of a chemical bond in an organic molecule with the simultaneous addition of a hydrogen atom to each of the resulting molecular fragments.
分解氢一个有机体分子中的化学键的断裂,同时给每个产生的分子分裂物加一个氢原子
14.
Studies on the Dissociation Mechanisms of Organic Mass Spectrometry and Automatic Interpretation Method;
有机质谱裂解规律及智能解析方法研究
15.
High-energy phosphate bond A phosphate linkage that hydrolyzes spontaneously, releasing energy, for example the last two phosphate bonds of ATP.
高能磷酸键:自发水解后能释放能量的磷酸键,如ATP的最后两个磷酸键。
16.
Heat causes the chemical bonds in cells to break down, a disruption that can be a potential trigger for cancer.
热会导致细胞内化学键的断裂,这种破坏可能是癌证的潜在诱因。
17.
The energy is dissipated by subsequent bond cleavage reactions into various "daughter ions".
这种能量消耗在后续的键断裂成各种“子离子”的反应中。
18.
The resultant ionized bond can be cleaved by a hemi-heterolysis process, affording a cation and a neutral radical.
生成的离子化键能由半异裂的过程而开裂,提供一个正离子和一个中性的游离基。