A novel ionic liquid stabilized molecularly imprinted optosensing material based on quantum dots and graphene oxide for specific recognition of vitamin E

Biosensors and Bioelectronics

Volumn 47, Issue , 2013, Pages 127-132

  Liu, Huilin ^a   Fang, Guozhen ^a   Zhu, Huidan ^a   Li, Changmo ^a   Liu, Cuicui ^a   Wang, Shuo ^a  

^a TIANJIN UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

Author keywords

Graphene; Ionic liquids; Molecularly imprinted polymer; Optosensing material; Quantum dots; Vitamin E

Indexed keywords

CONCENTRATION LEVELS; MOLECULARLY IMPRINTED; MOLECULARLY IMPRINTED POLYMER; ONE-STEP POLYMERIZATION; RELATIVE FLUORESCENCE INTENSITY; RELATIVE STANDARD DEVIATIONS; SPECIFIC RECOGNITION; VITAMIN-E;

FLUORESCENCE; GRAPHENE; SEMICONDUCTOR QUANTUM DOTS;

IONIC LIQUIDS;

ALPHA TOCOPHEROL; GRAPHENE OXIDE; IONIC LIQUID; MOLECULARLY IMPRINTED POLYMER; QUANTUM DOT;

ACCURACY; ARTICLE; BIOSENSOR; CHEMICAL BINDING; CHEMICAL PARAMETERS; CONCENTRATION (PARAMETERS); FLUORESCENCE ANALYSIS; LIMIT OF DETECTION; MOLECULAR IMPRINTING; POLYMERIZATION; SENSITIVITY AND SPECIFICITY; SURFACE PROPERTY; THERMOSTABILITY;

BIOSENSING TECHNIQUES; CHROMATOGRAPHY, HIGH PRESSURE LIQUID; GRAPHITE; IONIC LIQUIDS; LIMIT OF DETECTION; MOLECULAR IMPRINTING; OXIDES; QUANTUM DOTS; VITAMIN E;

EID: 84876301073     PISSN: 09565663     EISSN: 18734235     Source Type: Journal    
DOI: 10.1016/j.bios.2013.03.006     Document Type: Article

References (22)

1. Bossi A., Piletsky S.A., Piletska E.V., Righetti P.G., Turner A.P.F. Analytical Chemistry 2001, 73:5281-5286.
2. Bruchez M., Moronne M., Gin P., Weiss S., Alivisatos A.P. Science 1998, 281:2013-2016.
3. Chan W.C.W., Nie S. Science 1998, 281:2016-2018.
4. Chen C., Peng J., Xia H.S., Yang G.F., Wu Q.S., Chen L.D., Zeng L.B., Zhang Z.L., Pang D.W., Li Y. Biomaterials 2009, 30:2912-2918.
5. Chen H.Q., Muller M.B., Gilmore K.J., Wallace G.G., Li D. Advanced Materials 2008, 20:3557-3561.
6. Geim A.K., Novoselov K.S. Nature Materials 2007, 6:183-191.
7. Geim A.K. Science 2009, 324:1530-1534.
8. Geng X., Niu L., Xing Z., Song R., Liu G., Sun M., Cheng G., Zhong H., Liu Z., Zhang Z., Sun L., Xu H., Lu L., Liu.L. Advance Materials 2010, 22:638-642.
9. Guo C.X., Yang H.B., Sheng Z.M., Lu Z.S., Song Q.L., Li C.M. Angewandte Chemie Intrnational Edition 2010, 49:3014-3017.
10. Kempe M., Mosbach K. Journal of Chromatography A 1995, 691:317-323.
11. Lightcap I.V., Kamat P.V. Journal of the American Chemical Society 2012, 134:7109-7116.
12. Li H., Li Y., Cheng J. Chemistry of Materials 2010, 22:2451-2457.
13. Li L.L., Liu K.P., Yang G.H., Wang C.M., Zhang J.R., Zhu J.J. Advanced Functional Materials 2011, 21:869-878.
14. Liu H.L., Fang G.Z., Li C.M., Pan M.F., Liu C.C., Fan C., Wang S. Journal of Materials Chemistry 2012, 22:19882-19887.
15. Loh K.P., Bao Q.L., Eda G., Chhowalla M. Nature Chemistry 2010, 2:1015-1024.
16. Matthew J.A., Vincent C.T., Richard B.K. Chemical Review 2010, 110:132-145.
17. Qian J., Morley S., Wilson K., Nava P., Atkinson J., Manor D. The Journal of Lipid Research 2005, 46:2072-2082.
18. Stoller M.D., Park S.J., Zhu Y.W., An J.H., Ruoff R.S. Nano Letters 2008, 8:3498-3502.
19. Tang B., Niu J.Y., Yu C.G., Zhuo L.H., Ge J.C. Chemical Communications 2005, 4184-4186.
20. Tu R.Y., Liu B.H., Wang Z.Y., Gao D.M., Wang F., Fang Q.L., Zhang Z.P. Analytical Chemistry 2008, 80:3458-3465.
21. Yan J., Ye Q., Wang X., Yu B., Zhou F. Nanoscale 2012, 4:2109-2116.
22. Ye L., Mosbach K. Journal of the American Chemical Society 2001, 123:2901-2902.