Fabrication of hollow silica microspheres utilizing a hydrothermal approach
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关键词:
- Silica
- / Hollow materials
- / Glucose
- / Hydrothermal method
English
Fabrication of hollow silica microspheres utilizing a hydrothermal approach
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Key words:
- Silica
- / Hollow materials
- / Glucose
- / Hydrothermal method
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[1] X. Wang, Y. Yang, Y. Ma, J.N. Yao, Controlled synthesis of multi-shelled transition metal oxide hollow structures through one-pot solution route, Chin. Chem. Lett. 24 (2013) 1-6.[1] X. Wang, Y. Yang, Y. Ma, J.N. Yao, Controlled synthesis of multi-shelled transition metal oxide hollow structures through one-pot solution route, Chin. Chem. Lett. 24 (2013) 1-6.
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[2] C. Hu, Y. Xu, S. Duo, et al., Preparation of inorganic hollow spheres based on different methods, J. Chin. Chem. Soc. 57 (2010) 1091-1098.[2] C. Hu, Y. Xu, S. Duo, et al., Preparation of inorganic hollow spheres based on different methods, J. Chin. Chem. Soc. 57 (2010) 1091-1098.
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[3] C. Fowler, D. Khushalani, S. Mann, Interfacial synthesis of hollow microspheres of mesostructured silica, Chem. Commun. (2001) 2028-2029.[3] C. Fowler, D. Khushalani, S. Mann, Interfacial synthesis of hollow microspheres of mesostructured silica, Chem. Commun. (2001) 2028-2029.
-
[4] J. Jang, K. Lee, Facile fabrication of hollow polystyrene nanocapsules by microemulsion polymerization, Chem. Commun. (2002) 1098-1099.[4] J. Jang, K. Lee, Facile fabrication of hollow polystyrene nanocapsules by microemulsion polymerization, Chem. Commun. (2002) 1098-1099.
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[5] I. Tissot, J. Reymond, F. Lefebvre, E. Bourgeat-Lami, SiOH functionalized polystyrene latexex: a step toward the synthesis of hollow silica nanoparticles, Chem. Mater. 14 (2002) 1325-1331.[5] I. Tissot, J. Reymond, F. Lefebvre, E. Bourgeat-Lami, SiOH functionalized polystyrene latexex: a step toward the synthesis of hollow silica nanoparticles, Chem. Mater. 14 (2002) 1325-1331.
-
[6] O. Emmerich, N. Hugenberg, M. Schmidt, et al., Molecular boxes based on hollow organosilicon micronetworks, Adv. Mater. 11 (1999) 1299-1303.[6] O. Emmerich, N. Hugenberg, M. Schmidt, et al., Molecular boxes based on hollow organosilicon micronetworks, Adv. Mater. 11 (1999) 1299-1303.
-
[7] X. Lv, L. Wang, G. Li, et al., Preparation and characterization of optically functional hollow sphere hybrid materials by surface-initiated RATRP and "Click" chemistry, Chin. Chem. Lett. 24 (2013) 335-337.[7] X. Lv, L. Wang, G. Li, et al., Preparation and characterization of optically functional hollow sphere hybrid materials by surface-initiated RATRP and "Click" chemistry, Chin. Chem. Lett. 24 (2013) 335-337.
-
[8] C. Graf, A. van Blaaderen, Metallodielectric colloidal core-shell particles for photonic applications, Langmuir 18 (2002) 524-534.[8] C. Graf, A. van Blaaderen, Metallodielectric colloidal core-shell particles for photonic applications, Langmuir 18 (2002) 524-534.
-
[9] X.M. Sun, Y.D. Li, Colloidal carbon spheres and their core/shell structures with noble-metal nanoparticles, Angew. Chem. Int. Ed. 43 (2004) 597-601.[9] X.M. Sun, Y.D. Li, Colloidal carbon spheres and their core/shell structures with noble-metal nanoparticles, Angew. Chem. Int. Ed. 43 (2004) 597-601.
-
[10] W.H. Shen, Y.F. Zhu, X.P. Dong, J.L. Gu, J.L. Shi, A new strategy to synthesize TiO2 hollow spheres using carbon spheres as template, Chem. Lett. 34 (2005) 840-841.[10] W.H. Shen, Y.F. Zhu, X.P. Dong, J.L. Gu, J.L. Shi, A new strategy to synthesize TiO2 hollow spheres using carbon spheres as template, Chem. Lett. 34 (2005) 840-841.
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[11] X.L. Li, T.J. Lou, X.M. Sun, Y.D. Li, Highly sensitive WO3 hollow-sphere gas sensors, Inorg. Chem. 43 (2004) 5442-5449.[11] X.L. Li, T.J. Lou, X.M. Sun, Y.D. Li, Highly sensitive WO3 hollow-sphere gas sensors, Inorg. Chem. 43 (2004) 5442-5449.
-
[12] H.Y. Wang, R.J. Wang, X.M. Sun, R.X. Yan, Y.D. Li, Synthesis of red-luminescent Eu3+-doped lanthanides compounds hollow spheres Mater, Res. Bull. 40 (2005) 911-919.[12] H.Y. Wang, R.J. Wang, X.M. Sun, R.X. Yan, Y.D. Li, Synthesis of red-luminescent Eu3+-doped lanthanides compounds hollow spheres Mater, Res. Bull. 40 (2005) 911-919.
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[13] M. Sevilla, A.B. Fuertes, The production of carbon materials by hydrothermal carbonization of cellulose, Carbon 47 (2009) 2281-2289.[13] M. Sevilla, A.B. Fuertes, The production of carbon materials by hydrothermal carbonization of cellulose, Carbon 47 (2009) 2281-2289.
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[14] L. Sierra, B. Lopez, J.L. Guth, Preparation of mesoporous silica particles with controlled morphology from sodium silicate solutions and a non-ionic surfactant at pH values between 2 and 6, Microporous Mesoporous Mater. 39 (2000) 519-527.[14] L. Sierra, B. Lopez, J.L. Guth, Preparation of mesoporous silica particles with controlled morphology from sodium silicate solutions and a non-ionic surfactant at pH values between 2 and 6, Microporous Mesoporous Mater. 39 (2000) 519-527.
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[15] J. Martinez, S. Sanchez, G. Zarzosa, F. Ruiz, Y. Chumakov, Rietveld refinement of amorphous SiO2 prepared via sol-gel method, Mater. Lett. 60 (2006) 3526-3529.[15] J. Martinez, S. Sanchez, G. Zarzosa, F. Ruiz, Y. Chumakov, Rietveld refinement of amorphous SiO2 prepared via sol-gel method, Mater. Lett. 60 (2006) 3526-3529.
-
[16] L.H. Little, Infrared Spectra of Adsorbed Species, Academic Press, New York, 1966.[16] L.H. Little, Infrared Spectra of Adsorbed Species, Academic Press, New York, 1966.
-
[17] S. Ryu, M. Tomozawa, Fictive temperature measurement of amorphous SiO2 films by IR method, J. Non-Cryst. Solids 352 (2006) 3929-3935.[17] S. Ryu, M. Tomozawa, Fictive temperature measurement of amorphous SiO2 films by IR method, J. Non-Cryst. Solids 352 (2006) 3929-3935.
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[18] K.S.W. Sing, D.H. Everett, R.A.W. Haul, et al., Reporting physisorption data for gas/ solid system with special reference to the determination of surface area and porosity, Pure Appl. Chem. 57 (1985) 603-619.[18] K.S.W. Sing, D.H. Everett, R.A.W. Haul, et al., Reporting physisorption data for gas/ solid system with special reference to the determination of surface area and porosity, Pure Appl. Chem. 57 (1985) 603-619.
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[19] E.P. Barrett, L.G. Joyner, P.P. Halenda, The determination of pore volume and area distribution in porous substances. I. Computations from nitrogen isotherms, J. Am. Chem. Soc. 73 (1951) 373-380.[19] E.P. Barrett, L.G. Joyner, P.P. Halenda, The determination of pore volume and area distribution in porous substances. I. Computations from nitrogen isotherms, J. Am. Chem. Soc. 73 (1951) 373-380.
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