skip to content
Dovepress - Open Access to Scientific and Medical Research
View our mobile site

8852

Quantitative measurements of C-reactive protein using silicon nanowire arrays

Case report

(2367) Views  (533) Full article downloads

Authors: Min-Ho Lee, Kuk-Nyung Lee, Suk-Won Jung, Won-Hyo Kim, Kyu-Sik Shin, Woo-Kyeong Seong

Published Date March 2008 Volume 2008:3(1) Pages 117 - 124
DOI: http://dx.doi.org/10.2147/IJN.S2437

Min-Ho Lee, Kuk-Nyung Lee, Suk-Won Jung, Won-Hyo Kim, Kyu-Sik Shin, Woo-Kyeong Seong

Korea Electronics Technology Institute, Gyeonggi, Korea

Abstract: A silicon nanowire-based sensor for biological application showed highly desirable electrical responses to either pH changes or receptor-ligand interactions such as protein disease markers, viruses, and DNA hybridization. Furthermore, because the silicon nanowire can display results in real-time, it may possess superior characteristics for biosensing than those demonstrated in previously studied methods. However, despite its promising potential and advantages, certain process-related limitations of the device, due to its size and material characteristics, need to be addressed. In this article, we suggest possible solutions. We fabricated silicon nanowire using a top-down and low cost micromachining method, and evaluate the sensing of molecules after transfer and surface modifications. Our newly designed method can be used to attach highly ordered nanowires to various substrates, to form a nanowire array device, which needs to follow a series of repetitive steps in conventional fabrication technology based on a vapor-liquid-solid (VLS) method. For evaluation, we demonstrated that our newly fabricated silicon nanowire arrays could detect pH changes as well as streptavidin-biotin binding events. As well as the initial proof-of-principle studies, C-reactive protein binding was measured: electrical signals were changed in a linear fashion with the concentration (1 fM to 1 nM) in PBS containing 1.37 mM of salts. Finally, to address the effects of Debye length, silicon nanowires coupled with antigen proteins underwent electrical signal changes as the salt concentration changed.

Keywords: silicon nanowire array, C-reactive protein, vapor-liquid-solid method








Readers of this article also read:

Nano-vectors for efficient liver specific gene transfer
Editorial: Projections for nanomedicine into the next decade: But is it all about pharmaceuticals? ||FREE PAPER||
Nanocarriers as pulmonary drug delivery systems to treat and to diagnose respiratory and non respiratory diseases
Evidence-based decision-making within the context of globalization: A “Why–What–How” for leaders and managers of health care organizations
Radiolucency below the crown of mandibular horizontal incompletely impacted third molars and acute inflammation in men with diabetes
Amino acid management of Parkinson’s disease: a case study
Evaluation of in-vitro antibiotic susceptibility of different morphological forms of Borrelia burgdorferi
Long-term treatment of bipolar disorder with a radioelectric asymmetric conveyor
Comparison of two treatments for coxarthrosis: local hyperthermia versus radio electric asymmetrical brain stimulation
Radio electric asymmetric brain stimulation in the treatment of behavioral and psychiatric symptoms in Alzheimer disease