Biosensors and bioelectronics on smartphone for portable biochemical detection

Biosensors & Bioelectronics
Diming Zhang, Qingjun Liu

Abstract

Smartphone has been widely integrated with sensors, such as test strips, sensor chips, and hand-held detectors, for biochemical detections due to its portability and ubiquitous availability. Utilizing built-in function modules, smartphone is often employed as controller, analyzer, and displayer for rapid, real-time, and point-of-care monitoring, which can significantly simplify design and reduce cost of the detecting systems. This paper presents a review of biosensors and bioelectronics on smartphone for portable biochemical detections. The biosensors and bioelectronics based on smartphone can mainly be classified into biosensors using optics, surface plasmon resonance, electrochemistry, and near-field communication. The developments of these biosensors and bioelectronics on smartphone are reviewed along with typical biochemical detecting cases. Sensor strategies, detector attachments, and coupling methods are highlighted to show designs of the compact, lightweight, and low-cost sensor systems. The performances and advantages of these designs are introduced with their applications in healthcare diagnosis, environment monitoring, and food evaluation. With advances in micro-manufacture, sensor technology, and miniaturized electro...Continue Reading

References

Oct 31, 2008·Talanta·Dang Q HungRichard G Compton
Jul 23, 2009·PloS One·David N BreslauerDaniel A Fletcher
May 7, 2010·Lab on a Chip·Derek TsengAydogan Ozcan
Nov 11, 2010·Lab on a Chip·Hongying ZhuAydogan Ozcan
Mar 15, 2011·PloS One·Zachary J SmithSebastian Wachsmann-Hogiu
Jul 22, 2011·Analytical Chemistry·Hongying ZhuAydogan Ozcan
Mar 1, 2012·Lab on a Chip·Robert D StedtfeldSyed A Hashsham
May 19, 2012·Lab on a Chip·Onur MudanyaliAydogan Ozcan
Sep 22, 2012·Lab on a Chip·Li ShenIan Papautsky
Dec 21, 2012·Lab on a Chip·Ahmet F CoskunAydogan Ozcan
Mar 19, 2013·Annual Review of Analytical Chemistry·Kwi Nam HanGi Hun Seong
Apr 24, 2013·Lab on a Chip·Dustin GallegosBrian T Cunningham
May 22, 2013·Lab on a Chip·Peter B LillehojChih-Ming Ho
Aug 24, 2013·Journal of Laboratory Automation·C Christopher StempleJeong-Yeol Yoon
Sep 11, 2013·ACS Nano·Qingshan WeiAydogan Ozcan
Dec 18, 2013·Lab on a Chip·Vlad OncescuDavid Erickson
Feb 27, 2014·Lab on a Chip·Seoho LeeDavid Erickson
Feb 28, 2014·Analytical Chemistry·Eleonora Petryayeva, W Russ Algar
May 16, 2014·PloS One·Arunan SkandarajahDaniel A Fletcher
Jun 26, 2014·Lab on a Chip·Seung Ah Lee, Changhuei Yang
Aug 8, 2014·Analytical Chemistry·Hojeong YuBrian T Cunningham
Nov 27, 2014·Biomedical Optics Express·Kenneth D LongBrian T Cunningham
Dec 11, 2014·ACS Nano·Qingshan WeiAydogan Ozcan

❮ Previous
Next ❯

Citations

Mar 29, 2016·Biosensors & Bioelectronics·Qiangqiang FuYong Tang
Sep 24, 2016·Biosensors & Bioelectronics·Zhoumin LiDanke Xu
Oct 26, 2016·Analytical Chemistry·Emilia Witkowska NeryMartin Jönsson-Niedziółka
Oct 28, 2016·Biotechnology Journal·Laura SutarlieXiaodi Su
Jun 21, 2017·Sensors·Giovanni RateniFilippo Cavallo
Nov 7, 2017·Sensors·Rocio B DominguezAlfredo Márquez-Lucero
Oct 27, 2017·Sensors·Zhaoxin GengHongda Chen
Mar 3, 2018·Bioengineering·Firouz AbbasianSebastian Magierowski
Jan 6, 2018·Biosensors·Marta PodrażkaEmilia Witkowska Nery
Jun 2, 2018·Lab on a Chip·Anastasios EconomouMamas Prodromidis
May 18, 2018·Chemistry : a European Journal·Benjamin S MillerRachel A McKendry
Apr 29, 2018·Journal of Biomedical Optics·Qiang LiuWei Peng
Jul 25, 2018·Sensors·Isabel CunhaVitor Vasconcelos
Jul 17, 2018·IEEE Transactions on Biomedical Circuits and Systems·Yusheng Fu, Jinhong Guo
Oct 18, 2018·The Analyst·Xiwei HuangJinhong Guo
Dec 22, 2019·Sensors·Monika NehraGiovanna Marrazza
Jan 24, 2020·The Analyst·Chen Chen, Junsheng Wang
Dec 6, 2019·Nanotechnology·Samuel HalesYong Lin Kong
Feb 14, 2020·Sensors·Willian A Paiva-MarquesJ Ricardo Mejía-Salazar
Feb 25, 2020·The Analyst·Philip James-PembertonAndrew M Shaw
Mar 5, 2020·Lab on a Chip·Fumihiro SassaHiroaki Suzuki
Mar 19, 2020·Micromachines·Jakir Hossain Imran, Jung Kyung Kim

❮ Previous
Next ❯

Related Concepts

Related Feeds

Biosensors for Cancer Detection

Biosensors are devices that are designed to detect a specific biological analyte by essentially converting a biological entity (ie, protein, DNA, RNA) into an electrical signal that can be detected and analyzed. The use of biosensors in cancer detection and monitoring holds vast potential. Biosensors can be designed to detect emerging cancer biomarkers and to determine drug effectiveness at various target sites. Biosensor technology has the potential to provide fast and accurate detection, reliable imaging of cancer cells, and monitoring of angiogenesis and cancer metastasis, and the ability to determine the effectiveness of anticancer chemotherapy agents.

Related Papers

Annals of Biomedical Engineering
Xiyuan LiuPeter B Lillehoj
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme
K Kasai
Frontiers in Bioscience (Scholar Edition)
Arvind Sai Sarathi VasanMichael Pecht
Sensors
Vittorio M N PassaroFrancesco De Leonardis
© 2021 Meta ULC. All rights reserved