Microwave-assisted and conventional hydrothermal synthesis of ordered mesoporous silicas with P-containing functionalities

[1]  Z. Chai,et al.  Mesoporous silica SBA-15 functionalized with phosphonate and amino groups for uranium uptake , 2012, Science China Chemistry.

[2]  A. Bhaumik,et al.  Hollow spherical mesoporous phosphosilicate nanoparticles as a delivery vehicle for an antibiotic drug. , 2012, Chemical communications.

[3]  D. Saikia,et al.  Probing the Nature and Local Structure of Phosphonic Acid Groups Functionalized in Mesoporous Silica SBA-15 , 2012 .

[4]  M. Barczak,et al.  Template synthesis of mesoporous silicas containing phosphonic groups , 2011 .

[5]  Weijun Shan,et al.  Facile preparation and new formation mechanism of plugged SBA-15 silicas based on cheap sodium silicate , 2011 .

[6]  F. Kleitz,et al.  Phosphonate-functionalized large pore 3-D cubic mesoporous (KIT-6) hybrid as highly efficient actinide extracting agent. , 2011, Chemical communications.

[7]  J. Lan,et al.  High performance of phosphonate-functionalized mesoporous silica for U(VI) sorption from aqueous solution. , 2011, Dalton transactions.

[8]  Sang-Eon Park,et al.  Organocatalytic Application of Direct Organo-Functionalized Mesoporous Catalysts Prepared by Microwave , 2009 .

[9]  M. Jaroniec,et al.  Microwave-assisted synthesis of periodic mesoporous organosilicas with ethane and disulfide groups , 2009 .

[10]  V. Goncharik,et al.  Sorption of Hg2+, Nd3+, Dy3+, and Uo22+ ions at polysiloxane xerogels functionalized with phosphonic acid derivatives , 2008 .

[11]  M. Vallet‐Regí,et al.  Novel Method To Enlarge the Surface Area of SBA-15 , 2007 .

[12]  M. Jaroniec,et al.  Temperature-programmed microwave-assisted synthesis of SBA-15 ordered mesoporous silica. , 2006, Journal of the American Chemical Society.

[13]  M. Jaroniec,et al.  Hydrothermal stability of SBA-15 and related ordered mesoporous silicas with plugged pores , 2006 .

[14]  M. Jaroniec,et al.  Improvement of the Kruk-Jaroniec-Sayari method for pore size analysis of ordered silicas with cylindrical mesopores. , 2006, Langmuir : the ACS journal of surfaces and colloids.

[15]  M. Jaroniec,et al.  Assessment of ordered and complementary pore volumes in polymer-templated mesoporous silicas and organosilicas. , 2006, Chemical communications.

[16]  J. Choma,et al.  Adsorption characterization of surfactant-templated ordered mesoporous silicas synthesized with and without hydrothermal treatment , 2005 .

[17]  X. Bao,et al.  Morphologies of large-pore periodic mesoporous organosilicas. , 2005, The journal of physical chemistry. B.

[18]  Jian Liu,et al.  Synthesis and Characterization of Phosphonic Acid Functionalized Organosilicas with Bimodal Nanostructure , 2005 .

[19]  Sang-Eon Park,et al.  Supramolecular Interactions and Morphology Control in Microwave Synthesis of Nanoporous Materials , 2004 .

[20]  Jun Li,et al.  A novel route toward the synthesis of high-quality large-pore periodic mesoporous organosilicas , 2004 .

[21]  Y. Hwang,et al.  Microwave synthesis of cubic mesoporous silica SBA-16 , 2004 .

[22]  M. Davis,et al.  Design and preparation of organic-inorganic hybrid catalysts. , 2002, Chemical reviews.

[23]  B. J. Melde,et al.  Periodic Macroporous Hydroxyapatite-Containing Calcium Phosphates , 2002 .

[24]  Alexander V. Neimark,et al.  A New Templated Ordered Structure with Combined Micro- and Mesopores and Internal Silica Nanocapsules , 2002 .

[25]  B. Weckhuysen,et al.  Plugged hexagonal templated silica: a unique micro- and mesoporous composite material with internal silica nanocapsules. , 2002, Chemical communications.

[26]  M. Jaroniec,et al.  Periodic mesoporous organosilica with large cagelike pores , 2002 .

[27]  K. Jankowski Microdetermination of phosphorus in organic materials from polymer industry by microwave-induced plasma atomic emission spectrometry after microwave digestion , 2001 .

[28]  G. Ozin,et al.  Organization of Bridging Organics in Periodic Mesoporous Organosilicas (PMOs)—Polarization Micro‐Raman Spectroscopy , 2001 .

[29]  M. Jaroniec,et al.  Gas adsorption characterization of ordered organic-inorganic nanocomposite materials , 2001 .

[30]  G. Ozin,et al.  Periodic mesoporous organosilicas with organic groups inside the channel walls , 1999, Nature.

[31]  B. J. Melde,et al.  Mesoporous sieves with unified hybrid inorganic/organic frameworks , 1999 .

[32]  T. Ohsuna,et al.  Novel Mesoporous Materials with a Uniform Distribution of Organic Groups and Inorganic Oxide in Their Frameworks , 1999 .

[33]  Bradley F. Chmelka,et al.  Nonionic Triblock and Star Diblock Copolymer and Oligomeric Surfactant Syntheses of Highly Ordered, Hydrothermally Stable, Mesoporous Silica Structures , 1998 .

[34]  E. Barrett,et al.  The Determination of Pore Volume and Area Distributions in Porous Substances. II. Comparison between Nitrogen Isotherm and Mercury Porosimeter Methods , 1951 .

[35]  S. Saravanamurugan,et al.  Transesterification reactions over morphology controlled amino-functionalized SBA-15 catalysts , 2008 .

[36]  M. Barczak,et al.  Preparation and characterization of polysiloxane xerogels having covalently attached phosphonic groups , 2007 .

[37]  Ahmad Mehdi,et al.  Ordered SBA-15 mesoporous silica containing phosphonicacid groups prepared by a direct synthetic approach , 2001 .

[38]  A. Aliev,et al.  Porous silica and polysilsesquioxane with covalently linked phosphonates and phosphonic acids , 2000 .

[39]  J. Schrotter,et al.  Silicon and phosphorus alkoxide mixture: Sol-gel study by spectroscopic technics , 1995 .

[40]  E. Barrett,et al.  (CONTRIBUTION FROM THE MULTIPLE FELLOWSHIP OF BAUGH AND SONS COMPANY, MELLOX INSTITUTE) The Determination of Pore Volume and Area Distributions in Porous Substances. I. Computations from Nitrogen Isotherms , 1951 .

[41]  R. Pierotti,et al.  International Union of Pure and Applied Chemistry Physical Chemistry Division Commission on Colloid and Surface Chemistry including Catalysis* Reporting Physisorption Data for Gas/solid Systems with Special Reference to the Determination of Surface Area and Porosity Reporting Physisorption Data for , 2022 .