撤稿：一步水热法制备手性碳量子点

doi:10.12677/MS.2019.96070

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撤稿：一步水热法制备手性碳量子点

DOI: 10.12677/MS.2019.96070, PDF, HTML, , 被引量下载: 843 浏览: 3,019
作者: 王耀, 鲁羽鹏, 李远哲, 王璐梦, 张帆：太原理工大学材料学院，山西太原
关键词: 水热法；手性；碳量子点；圆二色谱；Hydrothermal Method； Chirality； Carbon Quantum Dots； Circular Dichroism

摘要: 撤稿声明：“一步水热法制备手性碳量子点”一文刊登在2019年6月出版的《材料科学》2019年第9卷第6期第549-557页上。因该文研究内容另作他用，作者主动申请撤稿。根据国际出版流程，编委会现决定撤除此稿件，保留原出版出处：王耀, 鲁羽鹏, 李远哲, 王璐梦, 张帆. 一步水热法制备手性碳量子点[J]. 材料科学, 2019, 9(6): 549-557. https://doi.org/10.12677/MS.2019.96070并对此撤稿带来的不便致以歉意。

文章引用：

参考文献

[1] Lin, G.Q., Chen, Y.Q., Chen, X.Z., et al. (2010) Chiral Synthesis-Asymmetry Reaction and Its Application. 4th Edition, Science Press, Beijing. (In Chinese)

[2] 于平, 岑沛霖, 励建荣. 手性化合物制备的方法[J]. 生物工程展, 2001, 21(6): 87-93.

[3] 薛红. 碳量子点制备及其在荧光检测与光解水的应用[D]: [硕士学位论文]. 大连: 大连理工大学, 2018.

[4] 李晶, 杨晓英. 新型碳纳米材料——石墨烯及其衍生物在生物传感器中的应用[J]. 化学进展, 2013, 25(2/3): 380-396.

[5] 颜范勇, 邹宇, 王猛, 代林枫, 周旭光, 陈莉. 荧光碳点的制备及应用[J]. 化学进展, 2014, 26(1): 61-74.

[6] Gosso, S., Gavello, D., Giachello, C.N.G., et al. (2011) The Effect of CdSe-ZnS Quantum Dots on Calcium Currents and Catecholamine Secretion in Mouse Chromaffin Cells. Biomaterials, 32, 9040-9050.
https://doi.org/10.1016/j.biomaterials.2011.08.031

[7] 陈军霞, 丁双阳. 量子点荧光探针在生物学中的应用[J]. 动物医学进展, 2005, 26(6): 108-111.

[8] 王月. 水溶性石油焦基碳量子点的构筑及检测Cu~(2+)研究[D]: [硕士学位论文]. 青岛: 中国石油大学, 2015.

[9] 杨梦, 左笑丛, 李艳, 黄利华, 邢晓为. 一种小鼠睾丸细胞涂片的快速制备方法[J]. 细胞与分子免疫学杂志, 2014, 30(2): 202-205.

[10] Lu, W., Qin, X., Liu, S., et al. (2012) Economical, Green Synthesis off Luorescent Carbon Nanoparticles and Their Use as Probes for Sensitive and Selective Detection of Mercury(II) Ions. Analytical Chemistry, 84, 5351.
https://doi.org/10.1021/ac3007939

[11] Hassan, M., Haque, E., Reddy, K.R., et al. (2014) Edge-Enriched Graphene Quantum Dots for Enhanced Photo-Luminescence and Super Capacitance. Nanoscale, 6, 11988-11994.
https://doi.org/10.1039/C4NR02365J

[12] Zheng, X.T., Ananthanarayanan, A., Luo, K.Q., et al. (2015) Glowing Graphene Quantum Dots and Carbon Dots: Properties, Syntheses, and Biological Applications. Small, 11, 1620.
https://doi.org/10.1002/smll.201402648

[13] Dong, Y., Pang, H., Yang, H.B. et al. (2013) Carbon-Based Dots Co-Doped with Nitrogen and Sulfur for High Quantum Yield and Excitation-Independent Emission. Angewandte Chemie International Edition, 52, 7800-7804.
https://doi.org/10.1002/anie.201301114

[14] Luk, C.M., Tang, L.B., Zhang, W.F., et al. (2012) An Efficient and Stable Fluorescent Graphene Quantum Dot-Agar Composite as a Converting Material in White Light Emitting Diodes. Journal of Materials Chemistry, 22, 22378- 22381.
https://doi.org/10.1039/c2jm35305a

[15] Zhang, R. and Chen, W. (2014) Nitro-gen-Doped Carbon Quantum Dots: Facile Synthesis and Application as a “Turn-Off” Fluorescent Probe for Detection of Hg2+ Ions. Biosensors & Bioelectronics, 55, 83-90.
https://doi.org/10.1016/j.bios.2013.11.074

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[1]	Lin, G.Q., Chen, Y.Q., Chen, X.Z., et al. (2010) Chiral Synthesis-Asymmetry Reaction and Its Application. 4th Edition, Science Press, Beijing. (In Chinese)
[2]	于平, 岑沛霖, 励建荣. 手性化合物制备的方法[J]. 生物工程展, 2001, 21(6): 87-93.
[3]	薛红. 碳量子点制备及其在荧光检测与光解水的应用[D]: [硕士学位论文]. 大连: 大连理工大学, 2018.
[4]	李晶, 杨晓英. 新型碳纳米材料——石墨烯及其衍生物在生物传感器中的应用[J]. 化学进展, 2013, 25(2/3): 380-396.
[5]	颜范勇, 邹宇, 王猛, 代林枫, 周旭光, 陈莉. 荧光碳点的制备及应用[J]. 化学进展, 2014, 26(1): 61-74.
[6]	Gosso, S., Gavello, D., Giachello, C.N.G., et al. (2011) The Effect of CdSe-ZnS Quantum Dots on Calcium Currents and Catecholamine Secretion in Mouse Chromaffin Cells. Biomaterials, 32, 9040-9050. https://doi.org/10.1016/j.biomaterials.2011.08.031
[7]	陈军霞, 丁双阳. 量子点荧光探针在生物学中的应用[J]. 动物医学进展, 2005, 26(6): 108-111.
[8]	王月. 水溶性石油焦基碳量子点的构筑及检测Cu~(2+)研究[D]: [硕士学位论文]. 青岛: 中国石油大学, 2015.
[9]	杨梦, 左笑丛, 李艳, 黄利华, 邢晓为. 一种小鼠睾丸细胞涂片的快速制备方法[J]. 细胞与分子免疫学杂志, 2014, 30(2): 202-205.
[10]	Lu, W., Qin, X., Liu, S., et al. (2012) Economical, Green Synthesis off Luorescent Carbon Nanoparticles and Their Use as Probes for Sensitive and Selective Detection of Mercury(II) Ions. Analytical Chemistry, 84, 5351. https://doi.org/10.1021/ac3007939
[11]	Hassan, M., Haque, E., Reddy, K.R., et al. (2014) Edge-Enriched Graphene Quantum Dots for Enhanced Photo-Luminescence and Super Capacitance. Nanoscale, 6, 11988-11994. https://doi.org/10.1039/C4NR02365J
[12]	Zheng, X.T., Ananthanarayanan, A., Luo, K.Q., et al. (2015) Glowing Graphene Quantum Dots and Carbon Dots: Properties, Syntheses, and Biological Applications. Small, 11, 1620. https://doi.org/10.1002/smll.201402648
[13]	Dong, Y., Pang, H., Yang, H.B. et al. (2013) Carbon-Based Dots Co-Doped with Nitrogen and Sulfur for High Quantum Yield and Excitation-Independent Emission. Angewandte Chemie International Edition, 52, 7800-7804. https://doi.org/10.1002/anie.201301114
[14]	Luk, C.M., Tang, L.B., Zhang, W.F., et al. (2012) An Efficient and Stable Fluorescent Graphene Quantum Dot-Agar Composite as a Converting Material in White Light Emitting Diodes. Journal of Materials Chemistry, 22, 22378- 22381. https://doi.org/10.1039/c2jm35305a
[15]	Zhang, R. and Chen, W. (2014) Nitro-gen-Doped Carbon Quantum Dots: Facile Synthesis and Application as a “Turn-Off” Fluorescent Probe for Detection of Hg2+ Ions. Biosensors & Bioelectronics, 55, 83-90. https://doi.org/10.1016/j.bios.2013.11.074