概述了脱氧核酶的结构特点、修饰和设计策略、催化特点、在基因治疗中的优势及作为一种新型的基因治疗工具在肿瘤治疗中的应用。
This article introduced the DNAzyme in such spects as structures, modifications, designing strategies, catalytic traits, advantages as well as its application as a new tool of gene therapy of tumor.
活性炭是一种应用广泛的吸附催化剂,其性能取决于它的孔隙结构和表面化学性质。
Activated carbon (AC) is used widely catalyst and adsorption material, and its capabilities are related to the pore structure and the surface chemical properties.
多孔材料以其独特的孔结构和表面性能,在大分子催化、吸附与分离、纳米材料组装及生物化学等众多领域具有广泛的应用前景。
Porous materials have potential applications in catalysis, adsorption, separation, ion exchange and chemical sensing fields because of their unique porous structures and surface performances.
本文介绍了旋流式分离器的结构、原理和特点以及在催化裂化能量回收系统中的应用情况。
The structure, principle, essential design features and application of the windspoutseparator in FCC energy recovery system are described.
介孔二氧化钛特殊的结构和性能,使其在催化、吸附、分离等领域展现出广阔的应用前景。
Mesoporous titanium dioxide have shown potential applications in wide fields such as catalysis, adsorption, separation and so on.
将杂交酶的应用分为以下几个主要的方面:改变酶的非催化特性;创造新活性的酶;研究蛋白质的结构和功能的关系等。
The hybrid enzyme techniques have been used to modify enzyme's non-catalysis characters, create novel enzymes, study the relationship between function and structure of protein.
本发明在纳米结构异质结光催化材料的制备技术领域内具有广泛地实用价值和应用前景。
The invention has wide use value and application prospect in the field of the preparation technology of the nano heterojunction photocatalytic material.
但由于孔壁是无定形结构,酸性较弱和水热稳定性较差,使其在催化领域的应用受到很大限制。
However, its application to petrochemical industry is limited due to the amorphous character of mesopore wall and weak acidity, as well as poor hydrothermal stability.
MSU和SBA等具有规则孔道结构的介孔硅基分子筛及其杂原子衍生物在多相催化、吸附分离及材料科学领域有重要的学术研究与工程应用价值。
The M41S, HMS, MSU, and SBA silica based crystalline mesoporous molecular sieves are of great academic and practical importance in catalysis, absorptive separation technology, and materials science.
MSU和SBA等具有规则孔道结构的介孔硅基分子筛及其杂原子衍生物在多相催化、吸附分离及材料科学领域有重要的学术研究与工程应用价值。
The M41S, HMS, MSU, and SBA silica based crystalline mesoporous molecular sieves are of great academic and practical importance in catalysis, absorptive separation technology, and materials science.
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