用于生物粒子无标记电学检测的平面扩展纳米库尔特计数器(XnCC)
In-plane Extended Nano-coulter Counter (XnCC) for the Label-free Electrical Detection of Biological Particles.
作者信息
Zhao Zheng, Vaidyanathan Swarnagowri, Bhanja Payel, Gamage Sachindra, Saha Subhrajit, McKinney Collin, Choi Junseo, Park Sunggook, Pahattuge Thilanga, Wijerathne Harshani, Jackson Joshua M, Huppert Mateusz L, Witek Małgorzata A, Soper Steven A
机构信息
Bioengineering Program, The University of Kansas, Lawrence, KS 66045.
Center of BioModular Multiscale Systems for Precision Medicine, The University of Kansas, Lawrence, KS 66045.
出版信息
Electroanalysis. 2022 Dec;34(12):1961-1975. doi: 10.1002/elan.202200091. Epub 2022 Jun 14.
We report an in-plane extended nanopore Coulter counter (XnCC) chip fabricated in a thermoplastic via imprinting. The fabrication of the sensor utilized both photolithography and focused ion beam milling to make the microfluidic network and the in-plane pore sensor, respectively, in Si from which UV resin stamps were generated followed by thermal imprinting to produce the final device in the appropriate plastic (cyclic olefin polymer, COP). As an example of the utility of this in-plane extended nanopore sensor, we enumerated SARS-CoV-2 viral particles (VPs) affinity-selected from saliva and extracellular vesicles (EVs) affinity-selected from plasma samples secured from mouse models exposed to different ionizing radiation doses.
我们报道了一种通过热压印在热塑性塑料中制造的平面扩展纳米孔库尔特计数器(XnCC)芯片。该传感器的制造分别利用光刻和聚焦离子束铣削在硅中制作微流体网络和面内孔隙传感器,随后从硅中生成紫外树脂印章,再通过热压印在合适的塑料(环烯烃聚合物,COP)中制造出最终器件。作为这种平面扩展纳米孔传感器实用性的一个例子,我们对从唾液中亲和选择的严重急性呼吸综合征冠状病毒2(SARS-CoV-2)病毒颗粒(VP)以及从暴露于不同电离辐射剂量的小鼠模型获得的血浆样本中亲和选择的细胞外囊泡(EV)进行了计数。
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