3D-printed bioanalytical devices

被引：40

作者：

Bishop, Gregory W. ^{[1
]}

Satterwhite-Warden, Jennifer E. ^{[2
]}

Kadimisetty, Karteek ^{[2
]}

Rusling, James F. ^{[2
,3
,4
,5
]}

机构：

[1] E Tennessee State Univ, Dept Chem, Johnson City, TN 37614 USA

[2] Univ Connecticut, Dept Chem, Storrs, CT 06269 USA

[3] Univ Connecticut, Inst Mat Sci, Storrs, CT 06269 USA

[4] Univ Connecticut, Ctr Hlth, Neag Canc Ctr, Farmington, CT 06030 USA

[5] Natl Univ Ireland Galway, Sch Chem, Galway, Ireland

来源：

NANOTECHNOLOGY | 2016年 / 27卷 / 28期

关键词：

3D printing; fluidic devices; stereolithography; extrusion; immunoassay; biosensing; MICROFLUIDIC DEVICES; FLUIDIC DEVICES; MICROVASCULAR NETWORKS; 3D; CHIP; ELECTRODES; FABRICATION; VERSATILE; PLATFORM; PHONE;

D O I：

10.1088/0957-4484/27/28/284002

中图分类号：

TB3 [工程材料学];

学科分类号：

0805 ; 080502 ;

摘要：

While 3D printing technologies first appeared in the 1980s, prohibitive costs, limited materials, and the relatively small number of commercially available printers confined applications mainly to prototyping for manufacturing purposes. As technologies, printer cost, materials, and accessibility continue to improve, 3D printing has found widespread implementation in research and development in many disciplines due to ease-of-use and relatively fast design-to-object workflow. Several 3D printing techniques have been used to prepare devices such as milli- and microfluidic flow cells for analyses of cells and biomolecules as well as interfaces that enable bioanalytical measurements using cellphones. This review focuses on preparation and applications of 3D-printed bioanalytical devices.

引用

页数：8

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