舍尔强调他们的主要目标在于研发一种单体物质-我们大多数人称为塑料的一种聚合物的构件---完全来源于海藻这种生物质原料。
Scheer stresses that his team's main goal is to derive a monomer—the building block of the polymers most of us call plastics—entirely from algae biomass.
那里有着种类及数量惊人的海洋生物,是世界上最大的由生物体组成的单体结构。
It supports astoundingly complex and diverse communities of Marine life and is the largest structure on the planet built by living organisms.
利用这种新方法是利用方便烯胺衍生物作为单体的前体。
An advantage of the new methods is the utilization of easily accessible allylic amine derivatives as monomer precursors.
综述了以脂肪族酯和芳香族酯为单体制备生物可降解脂肪族-芳香族共聚酯的研究进展。
Progress on biodegradable aliphatic-aromatic copolyesters based on aliphatic and aromatic diacids, diols and ester monomers was reviewed.
采用细胞毒、卤虫致死和微藻克生活性筛选模型,对分离得到的单体化合物进行了初步的生物活性评价。
The primary biological activities of the compounds were evaluated on the models of cell cytoclasis , brine shrimp and growth inhibition of red tide microalgae.
研究目的是分子设计并构建较G-CSF单体分子具有半衰期更长、生物活性更高的新型重组人G-CSF/G-CSF双体分子(简称G-G),并在原核系统进行高效表达。
Molecule design, construction and high level expression in E. coli. of bimolecular G-CSF with longer half life and higher bioactivities than single molecular G-CSF.
研究发现,SO_2及其衍生物可引起人外周血淋巴细胞、小鼠骨髓细胞、中国仓鼠肺成纤维细胞等哺乳动物细胞的染色体畸变、姊妹染色单体交换及微核的形成。
Several studies have shown that SO2 and its derivatives could induce chromosomal aberrations, sister chromatid exchanges and micronuclei in human blood lymphocyte, bone marrow cell in mice and CHL.
本文以邻甲基苯胺、对氯苯胺、间三氟甲基苯胺和5-三氟甲基-1,3-苯二胺为单体,利用电化学方法,得到了上述苯胺衍生物的聚合物薄膜。
In this paper, polymer films were prepared with o-toluidine, p-chloroaniline, m-trifluoro methylaniline and 5-trifluoromethyl-1,3-diaminobenzene as monomer by electrochemical method.
本发明涉及不饱和环状脂肪族碳酸酯单体及其聚合物的合成方法与用途,属于生物医用高分子材料领域。
This invention involves unsaturated cyclic aliphatic carbonate monomer and polymer synthesis and USES, and is biomedical polymer materials.
单体衍生物能够通过光照下单线态氧的形成损伤DNA。
Mono-substituted compound could photo-damaged DNA through the generation of singlet oxygen.
为此,本文选用具有生物相容性且来源广泛的纤维素醚与单体共聚,着重于环境响应的智能化聚合物纳米胶束的制备。
Therefore, in this thesis we adopted cellulose aether which is bio-compatibility and high-yield source to prepare responsive copolymer nanomicelle.
为此,本文选用具有生物相容性且来源广泛的纤维素醚与单体共聚,着重于环境响应的智能化聚合物纳米胶束的制备。
Therefore, in this thesis we adopted cellulose aether which is bio-compatibility and high-yield source to prepare responsive copolymer nanomicelle.
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