基于CdSe掺杂锐钛矿TiO2的可见光体外灭活HL60细胞实验研究
薛婷, 郭文博, 梁雪影, 罗丹, 艾保全, 熊建文. 基于CdSe掺杂锐钛矿TiO2的可见光体外灭活HL60细胞实验研究[J]. 激光生物学报, 2017, 26(3): 224.
XUE Ting, GUO Wenbo, LIANG Xueying, LUO Dan, AI Baoquan, XIONG Jianwen. An Experimental Study on the Visible Light Inactivated HL60 Cells in vitro Based on CdSe Doped Anatase TiO2[J]. Acta Laser Biology Sinica, 2017, 26(3): 224.
[1] LUCKY S S, SOO K C, ZHANG Y.Nanoparticles in photodynamic therapy[J].Chemical Reviews, 2015, 115(4): 1990-2042.
[2] YU Z, SUN Q, PAN W, et al.A near-infrared triggered nanophotosensitizer inducing domino effect on mitochondrial reactive oxygen species burst for cancer therapy[J].ACS Nano, 2015, 9(11): 11064-11074.
[3] WU L, BRESSER D, BUCHHOLZ D, et al.Unfolding the mechanism of sodium insertion in anatase TiO2 nanoparticles[J].Advanced Energy Materials, 2015, 5(2).
[4] REN W, YAN Y, ZENGL, et al.A near infrared light triggered hydrogenated black TiO2 for cancer photothermal therapy[J].Advanced Healthcare Materials, 2015, 4(10): 1526-1536.
[5] PETERS R J B, VAN BEMMEL G, HERRERA-RIVERA Z, et al.Characterization of titanium dioxide nanoparticles in food products: analytical methods to define nanoparticles[J].Journal of Agricultural and Food Chemistry, 2014, 62(27): 6285-6293.
[6] DEEPAGAN V G, YOU D G, UM W, et al.Long-Circulating Au-TiO2 nanocomposite as a sonosensitizer for ROS-Mediated eradication of cancer[J].Nano Letters, 2016, 16(10): 6257-6264.
[7] YOU D G, DEEPAGAN V G, UM W, et al.ROS-generating TiO2 nanoparticles for non-invasive sonodynamic therapy of cancer[J].Scientific Reports, 2016, 6.
[8] HOU Z, ZHANG Y, DENG K, et al.UV-emitting upconversion-based TiO2 photosensitizing nanoplatform: near-infrared light mediated in vivo photodynamic therapy via mitochondria-involved apoptosis pathway[J].ACS nano, 2015, 9(3): 2584-2599.
[9] WU S, WENG Z, LIU X, et al.Functionalized TiO2 based nanomaterials for biomedical applications[J].Advanced Functional Materials, 2014, 24(35): 5464-5481.
[10] HE Y, XIONG J, YAO C, et al.Photocatalytic inactivation effect of HMME-TiO2 nanocomposites on SCC cells under visible light[C]//The International Conference on Photonics and Optical Engineering and the Annual West China Photonics Conference (icPOE 2014).International Society for Optics and Photonics, 2015: 944910-944910-12.
[11] XIONG S, GEORGE S, JI Z, et al.Size of TiO2 nanoparticles influences their phototoxicity: an in vitro investigation[J].Archives of Toxicology, 2013, 87(1): 99-109.
[12] SUKWONG P, SOMKID K, KONGSENG S, et al.Respiratory tract toxicity of titanium dioxide nanoparticles and multi-walled carbon nanotubes on mice after intranasal exposure[J].IET Micro & Nano Letters, 2016, 11(4): 183-187.
[13] SUN M, YU Q, LIU M, et al.A novel toxicity mechanism of CdSe nanoparticles to Saccharomyces cerevisiae: Enhancement of vacuolar membrane permeabilization (VMP)[J].Chemico-biological Interactions, 2014, 220: 208-213.
[14] KIRCHNER C, LIEDL T, KUDERA S, et al.Cytotoxicity of colloidal CdSe and CdSe/ZnS nanoparticles[J].Nano Letters, 2005, 5(2): 331-338.
[15] SINGH A, AHMED M, GULERIA A, et al.An insight into the optical properties of CdSe quantum dots during their growth in bovine serum albumin solution[J].Journal of Luminescence, 2016, 179: 122-131.
[16] SELCUK S, SELLONI A.Facet-dependent trapping and dynamics of excess electrons at anatase TiO2 surfaces and aqueous interfaces[J].Nature Materials, 2016, 15(10): 1107-1112.
[17] WANG K, ZHANG R, SUN N, et al.Near-infrared light-driven photoelectrochemical aptasensor based on the upconversion nanoparticles and TiO2/CdTe heterostructure for detection of cancer cells[J].ACS Applied Materials & Interfaces, 2016, 8(39): 25834-25839.
[18] HUANG K, et al.Enhanced visible-light photocatalytic performance of nanosized anatase TiO2 doped with CdS quantum dots for cancer-cell treatment[J].Journal of Nanomaterials, 2012: 1-12.
[19] LEE Y L, LO Y S.Highly efficient quantum-dot-sensitized solar cell based on co-sensitization of CdS/CdSe[J].Advanced Functional Materials, 2009, 19(4): 604-609.
[20] LEE Y L, CHI C F, LIAU S Y.CdS/CdSe co-sensitized TiO2 photoelectrode for efficient hydrogen generation in a photoelectrochemical cell [J].Chemistry of Materials, 2009, 22(3): 922-927.
[21] ESPARZA D, ZARAZUA I LOPEZ-LUKE T, et al. Effect of different sensitization technique on the photoconversion efficiency of CdS quantum dot and CdSe quantum rod sensitized TiO2 solar cells[J].The Journal of Physical Chemistry C, 2015, 119(24): 13394-13403.
[22] 谷利, 李菲, 张洋. CdSe量子点的制备及其被聚乳酸包被的研究[J].中南大学学报(自然科学版), 2009, 40(4): 904-908.
GU LI, LI FEI, ZHANG YANG.Preparation of CdSe quantum dots and its coating with polylactic acid[J].Journal of Central South University (Natural Science).2009, 40(4): 904-908.
[23] HO W, JIMMY C Y.Sonochemical synthesis and visible light photocatalytic behavior of CdSe and CdSe/TiO2 nanoparticles[J].Journal of Molecular Catalysis A: Chemical, 2006, 247(1): 268-274.
[24] 熊建文, 肖化, 张镇西.MTT 法和CCK-8法检测细胞活性之测试条件比较[J].激光生物学报, 2007, 16 (5): 559-562.
[25] ZENG H, KORBELIK M, MCLEAN D I, et al.Monitoring photoproduct formation and photobleaching by fluorescence spectroscopy has the potential to improve PDT dosimetry with a verteporfin-like photosensitizer[J].Photochemistry and photobiology, 2002, 75(4): 398-405.
[26] 刘庆华, 余亮, 熊建文.在光动力疗法中应用的量子点[J].激光生物学报, 2008, 17(1): 138-143.
LIU Qinghua, XU Liang, XIONG Jianwen.Quantum dots applied in photodynamic therapy[J].Laser Biology Sinica, 2008, 17(1): 138-143.
[27] JING L, QU Y, WANG B, et al.Review of photoluminescence performance of nano-sized semiconductor materials and its rela-tionships with photocatalytic activity[J].Solar Energy Materials & Solar Cells, 2006, 90(12): 1773-1787.
薛婷, 郭文博, 梁雪影, 罗丹, 艾保全, 熊建文. 基于CdSe掺杂锐钛矿TiO2的可见光体外灭活HL60细胞实验研究[J]. 激光生物学报, 2017, 26(3): 224. XUE Ting, GUO Wenbo, LIANG Xueying, LUO Dan, AI Baoquan, XIONG Jianwen. An Experimental Study on the Visible Light Inactivated HL60 Cells in vitro Based on CdSe Doped Anatase TiO2[J]. Acta Laser Biology Sinica, 2017, 26(3): 224.