Wilson R. The use of gold nanoparticles in diagnostics and detection. Chem Soc Rev, 2008, 37(9):2028-2045.
[6]
Tang S, Zhao J, Storhoff JJ, et al. Nanoparticle-Based biobarcode amplification assay (BCA) for sensitive and early detection of human immunodeficiency type 1 capsid (p24) antigen. J Acquir Immune Defic Syndr, 2007, 46(2):231-237.
[7]
Nam JM, Thaxton CS, Mirkin CA. Nanoparticle-based bio-bar codes for the ultrasensitive detection of proteins. Science, 2003, 301(5641): 1884-1886.
[8]
Mason JT, Xu L, Sheng ZM, et al. A liposome-PCR assay for the ultrasensitive detection of biological toxins. Nat Biotechnol, 2006, 24(5):555-557.
[9]
Wang J, Liu G, Jan MR. Ultrasensitive electrical biosensing of proteins and DNA: carbon-nanotube derived amplification of the recognition and transduction events. J Am Chem Soc, 2004, 126(10): 3010-3011.
[14]
Bergin J. Global biochip markets: microarrays and lab-on-a-chip. Wellesley, USA: BBC Research, 2007.
[19]
Nie Z, Nijhuis CA, Gong J, et al. Electrochemical sensing in paper-based microfluidic devices. Lab Chip, 2010, 10(4):477-483.
[5]
Tang S, Hewlett IK. Europium nanoparticle-based immunoassays for sensitive detection of pathogens. Chem Today, 2009, 27(6):50-52.
[16]
Fu E, Lutz B, Kauffman P, et al. Controlled reagent transport in disposable 2D paper networks. Lab Chip, 2010, 10(7):918-920.
[17]
Fu E, Kauffman P, Lutz B, et al. Chemical signal amplification in two-dimentional paper networks. Sens Actuators B Chem, 2010, 149(1):325-328.
[18]
Nie Z, Deiss F, Liu X, et al. Integration of paper-based microfluidic devices with commercial electrochemical readers. Lab Chip, 2010, 10(22):3163-3169.
[21]
Iino R, Araki S, Kim SH, et al. Femtoliter microdropleti array device for single-molecule digital enzyme-linked immunosorbent assay// 15TH Conference on Miniaturized Systems for Chemistry and Life Sciences. Seattle, USA: 2011.
[22]
Fan HC, Wang J, Potanina A, et al. Whole-genome molecular haplotyping of single cells. Nat Biotechnol, 2011, 29(1):51-57.
[20]
Lee HH, Dineva MA, Chua YL, et al. Simple amplification-based assay: a nucleic acid-based point-of-care platform for HIV-1 testing. J Infect Dis, 2010, 201 Suppl 1:S65-S67.
[1]
2011 Chinese diagnostic reagent market trend forecast observational study. [2011-11-24]. http://www.chinayearbook.com/report/book_83809. htm. (in Chinese)
Allhoff F, Lin P, Moore D. What is nanotechnology and why does it matter: from science to ethics. Hoboken, NJ: John Wiley and Sons,
20
10:3-5.
[3]
Agrawal A, Tripp RA, Anderson LJ, et al. Real-time detection of virus particles and viral protein expression with two-color nanoparticle probes. J Virol, 2005, 79(13):8625-8628.
[10]
Tang S, Moayeri M, Chen Z, et al. Detection of anthrax toxin by an ultrasensitive immunoassay using europium nanoparticles. Clin Vaccine Immunol, 2009, 16(3):408-413.
[11]
Zhao J, Tang S, Storhoff J, et al. Multiplexed, rapid detection of H5N1 using a PCR-free nanoparticle-based genomic microarray assay. BMC Biotechonol, 2010, 10:74.
[12]
Chin CD, Laksanasopin T, Cheung YK, et al. Microfluidics-based diagnostics of infectious diseases in the developing world. Nat Med, 2011, 17(8):1015-1019.
[13]
Kirby B. Micro- and nanoscale fluid mechanics: transport in microfluidic devices. Cambridge: Cambridge University Press, 2010.
[15]
Gustin GA. Emerging markets for microfluidic applications in life sciences. Lyon, France: Saite Genevieve, 2007.