Mycelial growth and exo - biopolymer production by submerged culture of various edible mushrooms under different media 中译:数种可食用真菌于含不同媒介之液态培养基中的菌丝体生长与外生物大分子的产生。
2.
Progress in preparation of magnetic monodisperse nanoparticles and the methods of biopolymer assembly on the magnetic carriers is reviewed in this paper 本文综述了单分散磁性纳米颗粒的制备方法以及生物高分子在磁性纳米颗粒上的组装的研究进展。
3.
The main points of this thesis are summarized as follows : 1 . a new nanocomposite was developed by combination of prussian blue ( pb ) nanoparticles and multiwalled carbon nanotubes ( mwnts ) in the matrix of biopolymer chitosan ( chit ) 本文开展的具体研究工作如下: 1 .将普鲁士蓝( pb )纳米颗粒和mwnts分散在壳聚糖( chit )基底中,形成了一种新的纳米复合材料。
4.
One of us ( shapiro ) began this research with the realization that the basic operations of certain biomolecular machines within living cells ? recognition of molecular building blocks , cleavage and ligation of biopolymer molecules , and movement along a polymer ? could all be used , in principle , to construct a universal computer based on turing ' s conceptual machine 这项研究的开端,是本文作者之一夏比洛意识到,细胞内某些生物分子组件的基本运作方式,像是辨认基本分子建构单元、切开和连接生物聚合分子,以及组件沿着聚合分子移动的方式,理论上都能以涂林的概念为基础,建构普适的计算器器。
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Glucose biosensors were then constructed by these nanocomposites , and their electrochemical properties had been explored . secondly , the self - assembled nanocomposite was formed by mwnts and biopolymer , and was used to study the electrochemical properties of nadh . and finally , the modified electrode which was formed by immobilizing small molecular onto electrode surface , was used to detect dsdna in the solution 本论文首先,将多壁碳纳米管( mwnts )与纳米颗粒相结合,制备的纳米复合材料用于构建葡萄糖生物传感器,并研究了它的电化学性质;然后,将mwnts与生物聚合物自组装制备的纳米复合材料用于研究nadh的电化学性质;最后,本文还将小分子自组装固定在电极表面,用于测定溶液中的dsdna 。
