1)  Donor ligand
供体配体
2)  donor
供体
1.
A pathologiacal study of pig lung donor perfused with raffinose-low potassium dextran solution for lung transplantation;
棉子糖低钾右旋糖酐液对猪供体肺灌注保护作用的病理学研究
2.
Analysis of corneal donors in Eye Bank of Shandong,China;
山东省眼库角膜供体的临床应用分析
3.
Procurement and back-table of donor organ during simultaneous pancreas-kidney transplantation: a report of 7 cases;
胰肾联合移植的供体切取与修整7例
3)  NO donor
NO供体
1.
Synthesis and biological activity of flavonoids with NO donors;
NO供体黄酮类化合物的合成及其生物活性研究
2.
Nine compounds of NO donors were synthesized in order to find out new medicines of high bioavailability and good anticancer effect.
利用协同前药原理,在穿心莲内酯衍生物的结构上引入硝酸酯,合成了硝酸酯NO供体新化合物9个,以期找到生物利用度更高、抗癌作用更好的新药;目标化合物结构经1HNMR,13CNMR和MS确证。
3.
Chemical structures and properties of diazeniumdiolates that make them so excellent for designing materials capable of targeting reliable and controllable fluxes of bioactive NO have become one of the forefronts and highlights of novel NO donors.
新型亲核NO供体diazeniumdiolate独特的化学结构和性质,使其成为目前NO供体研究的一个热点。
4)  NO donor
NO 供体
1.
Numerous scholars have focused on the studyof NO donor-drugs.
这一研究结果拓宽了人们研制新药的思路,吸引了众多的学者致力于NO 供体药物的研发。
5)  acyl donor
酰基供体
1.
The effects of weight-average molecular mass(Mw) of konjac glucomannan(KGM) and acyl donors on its acylation catalyzed by an immobilized lipase Novozym 435 in t-BuOH were investigated.
研究了在有机介质叔丁醇中魔芋葡甘聚糖(KGM)的分子量及酰基供体对固定化脂肪酶Novozym 435催化KGM乙酰化反应的影响。
2.
This article reviews the recent development in the sucrose ester's synthesis catalyzed by enzymes, namely those involving control over the enzyme, the reaction medium and the acyl donor.
本文对蔗糖酯的酶促合成研究进行了总结,其中主要涉及到酶、反应媒介和酰基供体等影响因素。
6)  electron donor
电子供体
1.
Effects of temperature,pH value,electron donor and electron acceptor on denitrification were studied.
研究了温度、pH值、电子供体种类及电子受体种类对反硝化的影响。
2.
PCE degradation was carried out when methanol,lactate,and acetate were used as electron donors.
实验选用甲醇、乳酸盐和醋酸盐作为电子供体,对PCE的降解进行研究。
3.
It shows that lactate as electron donor PCE degradation rate is rapid, and lactate is suitable electron donor in our experiment.
用驯化好的厌氧污泥对葡萄糖、乳酸盐和醋酸盐作为电子供体时四氯乙烯(PCE)的降解进行研究。
参考词条
补充资料:供体
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CAS号:

性质:(一)指在化学反应过程中,能提供某一化学基团的物质(化合物)。例如:L-氨基酸与α-酮酸之间的氨基转移反应,L-氨基酸是氨基的供体。(二)提供基因DNA片段、器官、组织或其他细胞输送给另一个个体的生物。(三)在半导体中,若杂质或缺陷能级上有电子占据时,杂质原子或缺陷是电中性的,这种杂质或缺陷叫做施主,其能级叫做施主能级。施主能级上的电子,如获得一定能量可进入导带;这个能量叫做施主的电离能,也就是施主能级在导带底下方的能量距离。电离能小的施主能级是浅施主能级,电离能大的是深施主能级。磷、砷、锑是锗、硅半导体中的浅能级施主杂质。浅能级施主杂质叫n型杂质。深能级施主杂质可能成为空穴的陷阱或复合中心。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。