泉水上部的石块被绿色生物膜覆盖,它通过阳光和硫化物自然的发生化学反应生存。
The top of the springs' rocks are covered with green biofilms, which use both sunlight and sulfide-naturally occurring chemicals from the springs-to survive.
大量生物化学变化把他们的细胞粘贴在一起,形成一层胶状的生物膜,这层膜即使是烈性的混合抗生素也难以攻克。
A host of biochemical changes sticks the population of cells together, forming a gluey biofilm that even a potent cocktail of antibiotics struggles to shift.
和一些化学物质一样,高温也能够破坏生物膜,但在这两种方法都不安全。
High temperatures can destroy biofilms, as can some chemicals, but neither approach is safe to use inside the delicate interior of a human tooth.
人体使用自身的生物膜进行着大量例行的化学物质的分离与排泄。
The human body routinely performs many separation and chemical releases using it's own biological membranes.
利用红外光谱和扫描电子显微镜对反硝化生物膜生长前后pbs颗粒表面形态、化学组成的变化进行了分析。
The effect of denitrification on the surface configuration and chemical composition of PBS was analyzed by using IR spectrum and SEM observation.
本文对在裸电极、 分子自组装修饰电极和模拟生物膜修饰电极上进行蛋白质直接电化学的研究及相关应用进行简要综述。
The recent developments on direct protein electrochemistry at bare electrodes, electrodes decorated with self-assembled monolayers and biomimetic membranes are reviewed.
本文对在裸电极、 分子自组装修饰电极和模拟生物膜修饰电极上进行蛋白质直接电化学的研究及相关应用进行简要综述。
The recent developments on direct protein electrochemistry at bare electrodes, electrodes decorated with self-assembled monolayers and biomimetic membranes are reviewed.
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