1.
Thoughts of Microchimerism in Transplantation Immunology;
移植免疫中微嵌合现象给我们的思考
2.
Influence of the microchemirism in the thyroid glangs to post-partum Graves' disease
甲状腺内胎儿微嵌合体在产后Graves病发病的影响
3.
Influence of the fetal microchemirism in the thyroid glands on the Graves' disease animal model
胎儿微嵌合体对Graves病动物模型制备的影响
4.
The influence of fetal microchemisrism to dendritic cells in the thyroid glangs
胎儿微嵌合体对Graves病动物模型甲状腺内树突状细胞的影响
5.
Microchimerism in the cell-free blood samples of recipients associates with the acceptance of transplanted kidneys
肾移植受者游离血浆中微嵌合体与移植肾免疫耐受的相关性研究
6.
Promotion of Microchimerism and Allograft Tolerance in Orthotopic Allogenic Liver Transplant Recipients by Allogenic Spleen Transplantation;
同种脾组织诱导微嵌合体的形成对大胆鼠肝脏移植耐受的促进作用及其机制
7.
A Compartive Study of Microleakage of Titanium and Composite Inlays;
纯钛嵌体和复合树脂嵌体微渗漏的对比研究
8.
Synthesis of PEG-PCL Block Copolymers and Preparation of Microspheres;
PEG-PCL嵌段共聚物的合成及微球的制备
9.
Study on the Coupling of Microwave Pulses into Monolayer and Nested Cavities Through Slots;
微波脉冲与带缝单层腔体、嵌套腔体耦合的研究
10.
Pulse Power Supply based on Embed System and PWM
嵌入式微机与PWM联合控制的脉冲电源研制
11.
Study on Phase Separation of BSB Copolymer and Preparation of Nanoparticles by Anionic Dispersion Polymerization;
丁苯嵌段聚合物相分离及阴离子分散聚合制备纳米微球
12.
Research on Microstructure and Properties of Silicon Based Embedded Nano-composite Thin Films Prepared by APCVD;
APCVD制备纳米硅复合镶嵌薄膜及其微结构与性能研究
13.
8-bit Embedded MCU Design and Mixed Signal Simulation;
8位低功耗嵌入式微控制器设计及混合信号仿真
14.
A Comparison of the Marginal Microleakage of Filling Materials by Resin and Ceramage Polymerization Porcelain Inlay
树脂充填与聚合瓷嵌体修复牙体缺损边缘微渗漏的比较
15.
Endoscopic Microwave Treatment of the Joint Drug Machine in Front of Ben Gastrolith of Embedded Value of Dayton
内镜下微波联合药物机械治疗贲门口嵌顿性胃石的价值
16.
STUDY OF COARSENING OF MICRODOMAINS IN BLOCK COPOLYMERS BY LATTICE BOLTZMANN METHODS
嵌段聚合物微相分离后期相区粗化过程的格子Boltzmann研究
17.
Chimerism:The condition of being a genetic chimera.
嵌合现象:成为遗传嵌合体的现象.
18.
Terse conclusion:1. The both controlling temperature precision and automaticity are effectively improved in microwave chemistry special equipment which combines embedded control technology with infrared temperature measurement technology.
红外测温技术结合嵌入式控制技术能有效地提高微波化学专用设备的温控精度和自动化程度。