Capturing nitrosamines in tobacco-extract solution by hydrophobic mesoporous silica.
暂无分享,去创建一个
[1] Ying Wang,et al. Eliminating carcinogenic pollutants in environment: reducing the tobacco specific nitrosamines level of smoke by zeolite-like calcosilicate. , 2009, Journal of hazardous materials.
[2] Fangna Gu,et al. Functional mesoporous material derived from 3D net-linked SBA-15. , 2009, Chemistry.
[3] Fangna Gu,et al. Modifying MCM-41 as an efficient nitrosamine trap in aqueous solution , 2009 .
[4] Mi-Kyung Lee,et al. The synthesis of chloropropylated MCM-41 through co-condensation technique: The path finding process , 2008 .
[5] J. Rocha,et al. Structure and catalytic activity of Al-MCM-48 materials synthesised at room temperature: Influence of the aluminium source and calcination conditions , 2008 .
[6] S. Zhou,et al. New Strategy to Reduce the Harmful Effects of Smoking: Reducing the Level of N-nitrosamines in Mainstream Smoke by NaA Zeolite and In vitro and In vivo Investigations , 2008 .
[7] Z. Zou,et al. Novel inorganic-organic hybrid fluorescence chemosensor derived from SBA-15 for copper cation. , 2007, Inorganic chemistry.
[8] M. Yue,et al. Improving MCM-41 as a nitrosamines trap through a one-pot synthesis. , 2007, Chemistry, an Asian journal.
[9] M. Yue,et al. New application of hierarchical zeolite in life science : Fast trapping nitrosamines in artificial gastric juice by alkaline-tailored HZSM-5 , 2007 .
[10] J. Zhu,et al. Formation of Cubic Ia3d Silicas and Metal Oxide-Loaded Silicas Using a Triblock Copolymer (EO20PO70EO20)−Acetate Mixture as Structure Director in Aqueous Solution , 2007 .
[11] Tae-hoon Kim,et al. Kinetics and thermodynamics of bromophenol blue adsorption by a mesoporous hybrid gel derived from tetraethoxysilane and bis(trimethoxysilyl)hexane. , 2006, Journal of colloid and interface science.
[12] Tao Yu,et al. A novel ZnII-sensitive fluorescent chemosensor assembled within aminopropyl-functionalized mesoporous SBA-15. , 2006, Inorganic chemistry.
[13] Carlos E. S. Bernardes,et al. Comparative study of Al-MCM materials prepared at room temperature with different aluminium sources and by some hydrothermal methods , 2006 .
[14] Damián Pérez-Quintanilla,et al. Adsorption of cadmium(II) from aqueous media onto a mesoporous silica chemically modified with 2-mercaptopyrimidine , 2006 .
[15] J. H. Zhu,et al. Rapid Functionalization of Mesoporous Materials: Directly Dispersing Metal Oxides into As‐Prepared SBA‐15 Occluded with Template , 2005 .
[16] C. Zhou,et al. Adsorption of nitrosamines in acidic solution by zeolites. , 2005, Chemosphere.
[17] H. Amenitsch,et al. Time-resolved in situ studies of the formation of cubic mesoporous silica formed with triblock copolymers. , 2004, Langmuir : the ACS journal of surfaces and colloids.
[18] O. Lebedev,et al. Aluminum Incorporation into MCM-48 toward the Creation of Brønsted Acidity , 2004 .
[19] K. Inumaru,et al. Molecular selective adsorption of dilute alkylphenols and alkylanilines from water by alkyl-grafted MCM-41: tunability of the cooperative organic–inorganic function in the nanostructure , 2004 .
[20] M. Jaroniec,et al. Benzoylthiourea-modified MCM-48 mesoporous silica for mercury(II) adsorption from aqueous solutions , 2004 .
[21] T. Tatsumi,et al. Synthesis of amino-functionalized MCM-41 via direct co-condensation and post-synthesis grafting methods using mono-, di- and tri-amino-organoalkoxysilanes , 2004 .
[22] Xiaofu Shang,et al. Removing nitrosamines from mainstream smoke of cigarettes by zeolites , 2003 .
[23] Debra R Rolison,et al. Catalytic Nanoarchitectures--the Importance of Nothing and the Unimportance of Periodicity , 2003, Science.
[24] Alexander V. Neimark,et al. A New Templated Ordered Structure with Combined Micro- and Mesopores and Internal Silica Nanocapsules , 2002 .
[25] K. Unger,et al. MCM-41, MCM-48 and related mesoporous adsorbents: their synthesis and characterisation , 2001 .
[26] A. Neimark,et al. Characterization of MCM-48 materials , 2000 .
[27] W. M. Meier,et al. Significant reduction of carcinogenic compounds in tobacco smoke by the use of zeolite catalysts , 1999 .
[28] J. Nagy,et al. 29Si and 13C MAS-NMR characterization of surface modification of micelle-templated silicas during the grafting of organic moieties and end-capping , 1999 .
[29] S. Mahanti,et al. Structure factor for the periodic walls of mesoporous MCM-41 molecular sieves , 1999 .
[30] R. Fricke,et al. Acidity and Catalytic Behavior of Substituted MCM-48 , 1998 .
[31] A. Stein,et al. Synthesis of Ordered Microporous Silicates with Organosulfur Surface Groups and Their Applications as Solid Acid Catalysts , 1998 .
[32] R. Fricke,et al. Acidity of substituted mesoporous molecular sieve MCM-48 , 1998 .
[33] T. Tatsumi,et al. Stabilization of Mesoporous Molecular-Sieves by Trimethylsilylation , 1997 .
[34] H. Gies,et al. Influence of the sorbate type on the XRD peak intensities of loaded MCM-41 , 1996 .
[35] S. Hecht,et al. Origin in tobacco smoke of N'-nitrosonornicotine, a tobacco-specific carcinogen. , 1977, Journal of the National Cancer Institute.