Integration of Biomolecules with Inorganic Ferroelectrics: A Novel Approach to Nanoscale Devices

机译：生物分子与无机铁电器的整合：一种新的纳米级装置方法

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In this work, we investigate the feasibility of using a surface-tethered heptapeptide sequence as the basis for a ferroelectric-actuated component in a nanofluidic device. The fluorescently-labeled peptide sequence, (CISLLHSTC) is shown by fluorescence microscopy to selectively coat the PZT patterned channel floors. The peptide binding strength to PZT is determined over a range of flow rates in the patterned channel by imaging the fluorescence intensity of the coated channel and monitoring the output spectroscopically. The peptide is found to be stripped from the PZT at flow rates exceeding 5mL/h. Initial results demonstrating the possibility of covalently integrating the short peptide sequence to larger biological components such as antibodies are also presented.

机译：在这项工作中，我们研究了使用表面束缚七肽序列作为纳米流体装置中铁电动部件的基础的可行性。通过荧光显微镜显示荧光标记的肽序列（CISLLHSTC），以选择性地涂覆PZT图案化沟道地板。通过对涂覆通道的荧光强度进行成像并监测输出光谱，在图案化通道中的一系列流速中确定肽结合强度。发现肽以超过5mL / h的流速从PZT剥离。还介绍了初步结果，表明还呈现了将短肽序列与诸如抗体如抗体如较大的生物成分中的可能性。

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《Materials Research Society Symposium on Biosurfaces and Biointerfaces》|2006年||共5页
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Brian Reiss; Orlando Auciello; Leonidas E. Ocola; Millicent Anne Firestone;
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4. Integration of Biomolecules with Inorganic Ferroelectrics: A Novel Approach to Nanoscale Devices [C] . Brian Reiss, Orlando Auciello, Leonidas E. Ocola, Materials Research Society Symposium on Biosurfaces and Biointerfaces . 2006

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Integration of Biomolecules with Inorganic Ferroelectrics: A Novel Approach to Nanoscale Devices

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