Polyamine cobalt complexes are a kind of models of oxygen carriers.
多胺合钴配合物是一类氧载体模型化合物。
There are basically two types of oxygen carriers, which differ in the way they transport oxygen.
根据运输氧的方式不同,它有两种基本类型。
The second part of the question, regarding the efficacy of oxygen carriers, is difficult to answer.
问题的第二部分——氧载体的效率,也很难解决。
Hemoglobin-based oxygen carriers (HBOCs) utilize the same oxygen-carrying protein molecule found in blood.
基于血红蛋白的氧携带体是利用同样发现在血液中的载氧蛋白质分子。
In addition, these artificial oxygen carriers can be stored for long periods, greatly simplifying the work of the blood bank.
另外,这些人造氧携带体能被长时间保存,大大简化了血库的工作。
The new research advances in oxygen carriers in several recent years, including single metal oxides, multiplex metal oxides, nonmetal oxides are given.
总结了该领域最近几年新开发的单金属氧化物、复合金属氧化物以及非金属氧化物载氧体的最新研究进展。
Polyamine cobalt complexes with small molecular weights and simple structures, can be served as a model compound of oxygen carriers to be investigated.
多胺钴配合物分子量小,结构简单,可以作为氧载体模型化合物进行研究。
Nonmetal oxygen carriers and solid fuels CLC were the newest research focus, and solid fuels CLC would be the important tendency of the future research.
非金属载氧体、固体燃料化学链燃烧是该技术的最新研究热点,其中固体燃料化学链燃烧是未来研究的重要趋势。
Methemoglobin concentration is one of the important indices to evaluate the oxygen-carrying ability of blood and hemoglobin-based oxygen carriers(HBOCs).
高铁血红蛋白含量是衡量血液及红细胞代用品携氧能力的重要指标之一。
Oxygen carriers actually react with the products from the pyrolysis and gasification of coal instead of coal in itself when coal is directly used as the fuel.
煤与金属氧载体的反应并不是氧载体与煤的直接反应,而是与其热解和气化产物的气固反应。
In order to further research the relationship between the oxygen affinity and the hypertension, in this research, two Hemoglobin-based oxygen carriers (HBOCs) with low oxygen affinity were prepared.
为了进一步研究氧亲和力与血压之间的关系,本文制备了两种低氧亲和力的血红蛋白氧载体。
In order to further research the relationship between the oxygen affinity and the hypertension, in this research, two Hemoglobin-based oxygen carriers (HBOCs) with low oxygen affinity were prepared.
为了进一步研究氧亲和力与血压之间的关系,本文制备了两种低氧亲和力的血红蛋白氧载体。
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