Biomedical Engineering Reference
In-Depth Information
the detection limit was calculated to be 210 cells mL
−
1
at 3
σ
. Afterward, they [
66
]
employed another type of dendritic CdSe/ZnS-QDs nanocomposite to construct
the ECL aptasensor for the cancer cells detection based on ECL quenching of QDs
by gold nanoparticles (NPs). DNA conjugation and gold NPs linking and sensing
target cells can be directly performed on the magnetic nanocomposites for cell
detection based on ECL quenching.
References
1. Ding Z, Quinn BM, Haram SK, Pell LE, Korgel BA, Bard AJ (2002) Electrochemistry
and electrogenerated chemiluminescence from silicon nanocrystal quantum dots. Science
296:1293-1297
2. Myung N, Lu X, Johnston KP, Bard AJ (2004) Electrogenerated Chemiluminescence of Ge
Nanocrystals. Nano Lett 4:183-185
3. Hercules DM (1964) Chemiluminescence resulting from electrochemically generated spe-
cies. Science 145:808-809
4. ViscoR E, Chandross EA (1964) Electroluminescence in solutions of aromatic hydrocarbons.
J Am Chem Soc 86:5350-5351
5. Santhanam KS, Bard AJ (1965) Chemiluminescence of electrogenerated 9,10-diphenylan-
thracene anion radical. J Am Chem Soc 87:139-140
6. Bertolino C, MacSweeney M, Tobin J, O'Neill B, Sheehan MM, Coluccia S, Berney H
(2005) A monolithic silicon based integrated signal generation and detection system for mon-
itoring DNA hybridisation. Biosens Bioeletron 21:565-573
7. Zhan W, Bard AJ (2007) Electrogenerated chemiluminescence 83 immunoassay of human
c-reactive protein by using
Ru
(
bpy
)
3
2
+
-encapsulated liposomes as labels. Anal Chem
79:459-463
8. Ryoji K, Kumi A, Kohei N, Dai K, Osamu N (2010) Development of electrogenerated
chemiluminescence-based enzyme linked immunosorbent assay for Sub-pM detection. Anal
Chem 82:1692-1697
9. Liu X, Ju HX (2008) Coreactant enhanced anodic electrochemiluminescence of CdTe quan-
tum dots at low potential for sensitive biosensing amplified by enzymatic cycle. Anal Chem
80:5377-5382
10. Jie GF, Zhang JJ, Wang DC, Cheng C, Chen HY, Zhu JJ (2008) Electrochemiluminescence
immunosensor based on CdSe nanocomposites. Anal Chem 80:4033-4039
11. Rivera VR, Gamez FJ, Keener WK, Poli MA (2006) Rapid detection of clostridium botuli-
num toxins A, B, E, and F in clinical samples, selected food matrices, and buffer using para-
magnetic bead-based electrochemiluminescence detection. Anal Biochem 353:248-256
12. Luo LR, Zhang ZJ, Chen LJ, Ma LF (2006) Chemiluminescent imaging detection of staphy-
lococcal enterotoxin C1 in milk and water samples. Food Chem 97:355-360
13. Bruno JG, Kiel JL (1999) In vitro selection of DNA aptamers to anthrax spores with electro-
chemiluminescence detection. Biosens Bioelectron 14:457-464
14. Wolter A, Niessner R, Seidel M (2008) Detection of
Escherichia coli
O157:H7,
Salmonella
typhimurium
, and
Legionella pneumophila
in Water Using a flow-through chemilumines-
cence microarray readout system. Anal Chem 80:5854-5863
15. Zhang J, Qi HL, Li Y, Yang J, Gao Q, Zhang CX (2008) Electrogenerated chemilumines-
cence DNA biosensor based on hairpin DNA probe labeled with ruthenium complex. Anal
Chem 80:2888-2894
16. Huang HP, Li JJ, Zhu JJ (2011) Electrochemiluminescence based on quantum dots and their
analytical application. Anal Methods 3:33-42
