参考文献:1. Liu HP, Ye T, Mao CD (2007) Fluorescent carbon nanoparticles derived from candle soot. Angew Chem Int Ed 46:6473鈥?475 CrossRef 2. Bourlinos AB, Stassinopoulos A, Anglos D, Zboril R, Georgakilas V, Giannelis EP (2008) Photoluminescent carbogenic dots. Chem Mater 20:4539鈥?541 CrossRef 3. Chen SM, Zheng HZ, Wang JN, Hou J, He Q, Liu HH, Xiong CQ, Kong XL, Nie ZX (2013) Carbon nanodots as a matrix for the analysis of low-molecular-weight molecules in both positive- and negative-ion matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and quantification of glucose and uric acid in real samples. Anal Chem 85:6646鈥?652 CrossRef 4. Sun YP, Zhou B, Lin Y, Wang W, Fernando KAS, Pathak P, Meziani MJ, Harruff BA, Wang X, Wang H, Luo PG, Yang H, Kose ME, Chen B, Veca LM, Xie SY (2006) Quantum-sized carbon dots for bright and colorful photoluminescence. J Am Chem Soc 128(24):7756鈥?757 CrossRef 5. Baker SN, Baker GA (2010) Luminescent carbon nanodots: emergent nanolights. Angew Chem Int Ed 49(38):6726鈥?744 CrossRef 6. Wang F, Xie Z, Zhang H, Liu CY, Zhang YG (2011) Highly luminescent organosilane-functionalized carbon dots. Adv Funct Mater 21(6):1027鈥?031 CrossRef 7. Zhu AW, Qu Q, Shao XL, Kong B, Tian Y (2012) Carbon-dot-based dual-emission nanohybrid produces a ratiometric fluorescent sensor for in vivo imaging of cellular copper ions. Angew Chem Int Ed 51(29):7185鈥?189 CrossRef 8. Tao HQ, Yang K, Ma Z, Wan JM, Zhang YJ, Kang ZH, Liu Z (2012) In vivo NIR fluorescence imaging, biodistribution, and toxicology of photoluminescent carbon dots produced from carbon nanotubes and graphite. Small 8(2):281鈥?90 CrossRef 9. Goh EJ, Kim KS, Kim YR, Jung HS, Beack S, Kong WH, Scarcelli G, Yun SH, Hahn SK (2012) Bioimaging of hyaluronic acid derivatives using nanosized carbon dots. Biomacromol 13(8):2554鈥?561 CrossRef 10. Zhang Z, Hao JH, Zhang J, Zhang BL, Tang JL (2012) Protein as the source for synthesizing fluorescent carbon dots by a one-pot hydrothermal route. RSC Adv 2:8599鈥?601 CrossRef 11. Hu SL, Tian RX, Wu LL, Zhao Q, Yang JL, Liu J, Cao SR (2013) Chemical regulation of carbon quantum dots from synthesis to photocatalytic activity. Chem Asian J 8(5):1035鈥?041 CrossRef 12. Wang DM, Gao MX, Gao PF, Yang H, Huang CZ (2013) Carbon nanodots-catalyzed chemiluminescence of luminol: a singlet oxygen-induced mechanism. J Phys Chem C. doi:10.1021/jp404973b 13. Yang X, Feng B, He XL, Li FP, Ding YL, Fei JJ (2013) Carbon nanomaterial based electrochemical sensors for biogenic amines. Microchim Acta 180(11鈥?2):935鈥?56 CrossRef 14. Noguera PS, Posthuma-Trumpie GA, Tuil MV, Wal FJVD, Boer AD, Moers APHA, Amerongen AV (2011) Carbon nanoparticles as detection labels in antibody microarrays. Detection of genes encoding virulence factors in shiga toxin-producing escherichia coli. Anal Chem 83(22):8531鈥?536 CrossRef 15. Lu W, Qin X, Liu S, Chang G, Zhang Y, Luo Y, Asiri AM, Al-Youbi AO, Sun X (2012) Economical, green synthesis of fluorescent carbon nanoparticles and their use as probes for sensitive and selective detection of mercury(II) ions. Anal Chem 84(12):5351鈥?357 CrossRef 16. Wang YH, Bao L, Liu ZH, Pang DW (2011) Aptamer biosensor based on fluorescence resonance energy transfer from upconverting phosphors to carbon nanoparticles for thrombin detection in human plasma. Anal Chem 83(21):8130鈥?137 CrossRef 17. Liu J, Li J, Jiang Y, Yang S, Tan W, Yang R (2011) Combination of 蟺鈥撓€ stacking and electrostatic repulsion between carboxylic carbon nanoparticles and fluorescent oligonucleotides for rapid and sensitive detection of thrombin. Chem Commun 47(40):11321鈥?1323 CrossRef 18. Kang WJ, Chae JR, Cho YL, Lee JD, Kim S (2009) Multiplex imaging of single tumor cells using quantum-dot-conjugated aptamers. Small 5(22):2519鈥?522 CrossRef 19. Hicke BJ, Stephens AW, Gould T, Chang YF, Lynott CK, Heil J, Borkowski S, Hilger CS, Cook G, Warren S, Schmidt PG (2006) Tumor targeting by an aptamer. J Nucl Med 47(4):668鈥?78 20. Dueck M, Riedl S, Hinz U, Tandara A, M枚ller P, Herfarth C, Faissner A (1999) Detection of tenascin-C isoforms in colorectal mucosa, ulcerative colitis, carcinomas and liver metastases. Int J Cancer 82(4):477鈥?83 CrossRef 21. Nicol貌 M, Piccolino FC, Zardi L, Giovannini A, Mariotti C (2000) Detection of tenascin-C in surgically excised choroidal neovascular membranes. Graefes Arch Clin Exp Ophthalmol 238(2):107鈥?11 CrossRef 22. Kang WJ, Chae JR, Cho YL, Lee JD, Kim S (2009) Multiplex imaging of single tumor cells using quantum-dot-conjugated aptamers. Small 5(22):2519鈥?522 CrossRef 23. Daniels DA, Chen H, Hicke BJ, Swiderek KM, Gold L (2003) A tenascin-C aptamer identified by tumor cell SELEX: systematic evolution of ligands by exponential enrichment. Proc Natl Acad Sci U S A 100(23):5416鈥?5421 24. Dong YQ, Zhou NN, Lin XM, Lin JP, Chi YW, Chen GN (2010) Extraction of electrochemiluminescent oxidized carbon quantum dots from activated carbon. Chem Mater 22(21):5895鈥?899 CrossRef 25. Gunn DL, Roszman TL (1972) Preparation of sensitive and stable erythrocytes by the carbodiimide method for the detection of primary and secondary IgM and IgG antibody. J Immunol Methods 1(4):381鈥?89 CrossRef 26. Yang ML, Liu CZ, Qian KJ, He PG, Fang YZ (2002) Study on the electrochemiluminescence behavior of ABEI and its application in DNA hybridization analysis. Analyst 127(9):1267鈥?271 CrossRef 27. Hun X, Wang Z (2012) L-Argininamide biosensor based on S1 nuclease hydrolysis signal amplification. Microchim Acta 176(1鈥?):209鈥?16 CrossRef 28. Jung SW, Cha M, Park JY, Jeong N, Kim G, Park C, Ihm J, Lee J (2010) Dissociation of single-strand DNA: single-walled carbon nanotube hybrids by watson鈥攃rick base-pairing. J Am Chem Soc 132(32):10964鈥?0966 CrossRef 29. Hun X, Liu F, Mei Z, Ma LF, Wang ZP, Luo XL (2013) Signal amplified strategy based on target-induced strand release coupling leavage of nicking endonuclease for the ultrasensitive detection of ochratoxin A. Biosens Bioelectron 39:145鈥?51 CrossRef 30. Steude A, Schmidt S, Robitzki AA, P盲nke O (2011) An electrode array for electrochemical immuno-sensing using the example of impedimetric tenascin C detection. Lab Chip 11(17):2884鈥?892 CrossRef 31. Riedl S, Bodenm眉ller H, Hinz U, Holle R, M枚ller P, Schlag P, Herfarth C, Faissner A (1995) Significance of tenascin serum level as tumor marker in primary colorectal carcinoma. Int J Cancer 64(1):65鈥?9 CrossRef 32. Ropers T, Kroll W, Becka M, Voelker M, Burchardt ER, Schuppan D, Gehrmann M (2000) Enzyme immunoassay for the measurement of human tenascin-C on the Bayer Immuno 1 analyzer. Clin Biochem 33(1):7鈥?3 CrossRef 33. Kimura S, Ishida S, Matunaga K, Washizu K, Hiraiwa H, Takeuchi K, Wakabayashi T, Yoshida J, Kato K (1993) Determination of tenascin in human serum by the use of a new enzyme immunoassay. Biomed Res 14(3):203鈥?08 34. Yl盲tupa S, Mertaniemi P, Haglund C, Partanen P (1995) Enzyme immunoassay for quantification of tenascin in biologic samples. Clin Biochem 28(3):263鈥?68 CrossRef
刊物类别:Chemistry and Materials Science
刊物主题:Chemistry Analytical Chemistry Inorganic Chemistry Physical Chemistry Characterization and Evaluation Materials Monitoring, Environmental Analysis and Environmental Ecotoxicology