MEMS-based dispenser array for selective immobilization of molecular recognition elements on bio-image sensor

机译：基于MEMS的分配器阵列，用于将分子识别元件选择性固定在生物图像传感器上

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Selective immobilization of molecular recognition elements on bio-image sensor permits detection of different type of target analytes in a single chip. For the selective immobilization, we designed two types of MEMS-based dispenser array, 2D and 3D dispenser arrays. 2D dispenser embedding microchannels is placed on a senor substrate contacting the sensor elements to introduce biomolecules. Fabrication of a 2D dispenser array requires multi-layer architecture and through holes. PDMS through holes were formed via replication from a two-layer SU-8 mold. We measured transportation of particles through a via-hole. We fabricated top and bottom layer structures of 2D dispenser array. Attachment of a probe array to a microchip enables dispensing multiple droplets containing biomolecules from the probe array. We fabricated probe tips of a 3D dispenser array having 32 × 32 of SiO tapered probes with aperture diameters of 37.2 μm by MEMS fabrication technology.

机译：选择性地将分子识别元件固定在生物图像传感器上，可以检测单个芯片中不同类型的目标分析物。对于选择性固定，我们设计了两种基于MEMS的分配器阵列，即2D和3D分配器阵列。将嵌入微通道的2D分配器放置在与传感器元件接触以引入生物分子的传感器基板上。二维分配器阵列的制造需要多层架构和通孔。通过从两层SU-8模具复制形成PDMS通孔。我们测量了颗粒通过通孔的传输。我们制造了二维分配器阵列的顶层和底层结构。探针阵列与微芯片的附接使得能够从探针阵列分配包含生物分子的多个液滴。我们通过MEMS制造技术制造了具有32×32孔径为37.2μm的SiO锥形探头的3D分配器阵列的探头尖端。

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《International Symposium on Micro-NanoMechatronics and Human Science》|2014年|1-4|共4页
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Nagai Masaharu; Soga S.; Miyamoto Takahiro; Kawashima T.; Shibata Takuma;
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bioMEMS; biosensors; chemical sensors; drops; image sensors; lab-on-a-chip; microchannel flow; microfabrication; microsensors; molecular biophysics; multilayers; 2D dispenser array fabrication; 3D dispenser array; MEMS fabrication technology; MEMS-based dispenser array; PDMS; SiOsub2/sub tapered probes; aperture diameters; bioimage sensor; biomolecules; bottom layer structures; microchannels; microchip; molecular recognition elements; multilayer architecture; multiple droplets; particle transportation; probe array attachment; probe tips; selective immobilization; sensor elements; single chip; size 37.2 mum; substrate; target analyte detection; top layer structures; two-layer SU-8 mold; via-hole; Arrays; Biosensors; Fabrication; Microchannels; Probes; Silicon; Three-dimensional displays;

机译：bioMEMS;生物传感器;化学传感器;液滴;图像传感器;芯片实验室;微通道流动;微制造;微传感器;分子生物物理学;多层; 2D分配器阵列制造; 3D分配器阵列; MEMS制造技术;基于MEMS的分配器阵列; PDMS; SiO _{2 锥形探针;孔径;生物图像传感器;生物分子;底层结构;微通道;微芯片;分子识别元件;多层体系结构;多液滴;粒子传输;探针阵列附着;探针尖端;选择性固定;传感器元件;单芯片;尺寸37.2毫米;基板;目标分析物检测;顶层结构;两层SU-8模具;通孔;阵列;生物传感器;制造;微通道;探针;硅;三层尺寸显示;}

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专利

1. Affinity sensor based on immobilized molecular imprinted synthetic recognition elements [J] . Lenain Pieterjan, De Saeger Sarah, Mattiasson Bo, Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2015,第Null期

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4. MEMS-based dispenser array for selective immobilization of molecular recognition elements on bio-image sensor [C] . Nagai Masaharu, Soga S., Miyamoto Takahiro, International Symposium on Micro-NanoMechatronics and Human Science . 2014

机译：基于MEMS的分配器阵列，用于选择性固定生物图像传感器上的分子识别元件
5. Molecular engineering of selective recognition elements as coatings for sensor platforms. [D] . Jaworski, Justyn Wayne. 2009

机译：选择性识别元件作为传感器平台涂层的分子工程。
6. Understanding the Mechanism of Formation of a Response to Juglone for Intact and Immobilized Bacterial Cells as Recognition Elements of Microbial Sensors: Processes Causing the Biosensor Response [O] . Elena V. Emelyanova, Inna P. Solyanikova 2021

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MEMS-based dispenser array for selective immobilization of molecular recognition elements on bio-image sensor

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