Remote Control of Reversible Localized Protein Adsorption in Microfluidic Devices

Nan Hao; Jin-Yi Li; Meng Xiong

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Remote Control of Reversible Localized Protein Adsorption in Microfluidic Devices

机译：远程控制微流控设备中可逆的局部蛋白质吸附

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We present a facilely prepared graphene oxide (GO)/ poly(dimethylsiloxane) (PDMS) composite by dispersing nanosized GO in PDMS. On the basis of the combination of photothermal effects of GO and grafted thermoresponsive polymer, poIy(N-isopropylacrylamide) (PNIPAAm), an optical-driving approach for remote control of localized wettability is realized. And this method has been successfully applied in the spatially controlled reversible protein adsorption in microfluidic devices.

机译：我们通过将纳米尺寸的GO分散在PDMS中，提供了一种易于制备的氧化石墨烯（GO）/聚（二甲基硅氧烷）（PDMS）复合材料。基于GO的光热效应和接枝的热响应性聚合物聚（N-异丙基丙烯酰胺）（PNIPAAm）的结合，实现了一种用于局部润湿性远程控制的光学驱动方法。并且该方法已成功应用于微流体装置中空间可控的可逆蛋白质吸附。

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《ACS applied materials & interfaces》 |2014年第15期|共5页
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Nan Hao; Jin-Yi Li; Meng Xiong;
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1. Remote Control of Reversible Localized Protein Adsorption in Microfluidic Devices [J] . Nan Hao, Jin-Yi Li, Meng Xiong ACS applied materials & interfaces . 2014,第15期

机译：远程控制微流控设备中可逆的局部蛋白质吸附
2. Adsorption-Resistant Acrylic Copolymer for Prototyping of Microfluidic Devices for Proteins and Peptides [J] . Jikun Liu, Xuefei Sun, Milton L. Lee Analytical chemistry . 2007,第5期

机译：用于蛋白质和多肽微流控装置原型的抗吸附丙烯酸共聚物
3. Model-controlled hydrodynamic focusing to generate multiple overlapping gradients of surface-immobilized proteins in microfluidic devices [J] . Walter Georgescu, Jerome Jourquin, Lourdes Estrada Lab on a chip . 2008,第2期

机译：模型控制的流体动力聚焦可在微流体装置中产生表面固定蛋白的多个重叠梯度
4. Improved protein-adsorption resistance of digital microfluidic device via surface coating and structure modification [C] . Shun-Yuan Chen, Heng-Cang Hu, Chih-Sheng Yu, Conference on BioMEMS and Nanotechnology . 2008

机译：通过表面涂层和结构改性改善数字微流体装置的蛋白质吸附性
5. Voltage-controlled programmable patterning of proteins and cells in a microfluidic device. [D] . Fan, Chao Yung. 2007

机译：电压控制的微流控设备中蛋白质和细胞的可编程图案化。
6. Photoresponsive microvalve for remote actuation and flow control in microfluidic devices [O] . Amol D. Jadhav, Bao Yan, Rong-Cong Luo, 2015

机译：光响应微阀用于微流体设备中的远程驱动和流量控制
7. Controlling nonspecific protein adsorption in a plug-based microfluidic system by controlling interfacial chemistry using fluorous-phase surfactants [O] . Roach L. Spencer, Song Helen, Ismagilov Rustem F. 2005

机译：通过使用氟相表面活性剂控制界面化学来控制基于塞子的微流体系统中非特异性蛋白质的吸附

Remote Control of Reversible Localized Protein Adsorption in Microfluidic Devices

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