表明层状液晶体系是获取更多MB单体的理想介质。
Thus the lamellar liquid crystal system appears to be the ideal medium to acquire more MB monomers.
用小角度X射线衍射方法测定了层状液晶各种组分变化的层间距离;
The interlayer space of lamellar liquid crystal was deter-mined by small angle X-ray diffraction.
在油酸囊泡的层状液晶中利用电化学沉积法成功地制备了银纳米颗粒。
Silver nanoparticles are prepared successfully by an electrochemical deposition in a lamellar liquid crystalline of oleate vesicles.
中等温度范围内表现出典型的非离子表面活性剂层状液晶的频率扫描曲线形式。
A typical frequency sweep rheogram of nonionic surfactant liquid crystal can be observed at a moderate temperature range.
首度在二维溶致型层状液晶系统中,发现了液相与固相之间存在一“六角方向性”的新状态。
An intermediate surface hexatic phase between the liquid and the crystalline phases has been found for the first time in a lyotropic lamellar liquid-crystal system.
滤光镜,电极,晶体管,液晶体本身以层状放置在一片薄玻璃板上,上面还盖着另外一片玻璃板,这类似于三明治的结构。
Layers of material which work as filters, electrodes, transistors and the liquid crystal itself are deposited onto a thin glass plate to form a sandwich that is covered with another pane of glass.
以非离子表面活性剂四氧乙烯基正十二烷基醚与氯铂酸水溶液构建层状溶致液晶,通过电沉积技术制备了金属铂纳米线。
Platinum nanowires were electrodeposited in a lamellar lyotropic liquid crystal, composed of nonionic surfactant tetraethylene glycol monododecyl ether and H2PtCl6 aqueous solution.
以非离子表面活性剂四氧乙烯基正十二烷基醚与氯铂酸水溶液构建层状溶致液晶,通过电沉积技术制备了金属铂纳米线。
Platinum nanowires were electrodeposited in a lamellar lyotropic liquid crystal, composed of nonionic surfactant tetraethylene glycol monododecyl ether and H2PtCl6 aqueous solution.
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