Abdouss et al., 2014 - Google Patents

Effect of the structure of the support and the aminosilane type on the adsorption of H 2 S from model gas

Abdouss et al., 2014

Document ID: 15633935860422857204
Author: Abdouss M; Hazrati N; Beigi A; Vahid A; Mohammadalizadeh A
Publication year: 2014
Publication venue: RSC advances

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In the present work, three different porous supports, ie MCM-41, SBA-15 and UVM-7 were synthesized and functionalized with three different aminosilanes (C9H23NO3Si, C8H22N2O3Si and C10H27N3O3Si). All the synthesized samples were characterized using …

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 [Si]N 0 title description 14

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Publication	Publication Date	Title
Abdouss et al.	2014	Effect of the structure of the support and the aminosilane type on the adsorption of H 2 S from model gas
Li et al.	2016	A lignosulfonate-modified graphene hydrogel with ultrahigh adsorption capacity for Pb (II) removal
Li et al.	2016	Low temperature H2S removal with 3-D structural mesoporous molecular sieves supported ZnO from gas stream
Singh et al.	2016	Design of CO 2 sorbents using functionalized fibrous nanosilica (KCC-1): insights into the effect of the silica morphology (KCC-1 vs. MCM-41)
Yan et al.	2018	Amino-functionalized hierarchical porous SiO2-AlOOH composite nanosheets with enhanced adsorption performance
Shao et al.	2017	Dual-porosity Mn2O3 cubes for highly efficient dye adsorption
Tan et al.	2014	Fabrication of magnetically responsive core–shell adsorbents for thiophene capture: AgNO 3-functionalized Fe 3 O 4@ mesoporous SiO 2 microspheres
Qasem et al.	2017	Synthesis, characterization, and CO2 breakthrough adsorption of a novel MWCNT/MIL-101 (Cr) composite
Zohdi et al.	2019	Improved CO2 adsorption capacity and CO2/CH4 and CO2/N2 selectivity in novel hollow silica particles by modification with multi-walled carbon nanotubes containing amine groups
Park et al.	2010	A study on hydrogen-storage behaviors of nickel-loaded mesoporous MCM-41
Yilmaz	2017	Synthesis of novel amine modified hollow mesoporous silica@ Mg-Al layered double hydroxide composite and its application in CO2 adsorption
Duczinski et al.	2018	Waste derived MCMRH-supported IL for CO2/CH4 separation
Fakhraie et al.	2023	Fabrication and application of novel core–shell MIL-101 (Cr)@ UiO-66 (Zr) nanocrystals for highly selective separation of H2S and CO2
Gunathilake et al.	2020	Emerging investigator series: Synthesis of magnesium oxide nanoparticles fabricated on a graphene oxide nanocomposite for CO 2 sequestration at elevated temperatures
Zhang et al.	2018	Amino-modified molecular sieves for adsorptive removal of H 2 S from natural gas
Kishor et al.	2016	N 1-(3-Trimethoxysilylpropyl) diethylenetriamine grafted KIT-6 for CO 2/N 2 selective separation
Licciulli et al.	2017	CO2 capture on amine impregnated mesoporous alumina-silica mixed oxide spheres
Sharma et al.	2013	Knobby surfaced, mesoporous, single-phase GIS-NaP1 zeolite microsphere synthesis and characterization for H 2 gas adsorption
Lee et al.	2014	Facile synthesis of mesoporous silica and titania supraparticles by a meniscus templating route on a superhydrophobic surface and their application to adsorbents
Ignat et al.	2019	Porous polymer/inorganic composite matrices as efficient desiccants for air dehumidification
Kandula et al.	2015	Synthesis of Silica@ Ni‐Co mixed metal oxide core–shell nanorattles and their potential use as effective adsorbents for waste water treatment
Huang et al.	2019	The synergetic effect of a structure-engineered mesoporous SiO 2–ZnO composite for doxycycline adsorption
Gao et al.	2015	Mercaptosilane-assisted synthesis of sub-nanosized Pt particles within hierarchically porous ZSM-5/SBA-15 materials and their enhanced hydrogenation properties
Lin et al.	2012	Aerosol processing of low-cost mesoporous silica spherical particles from photonic industrial waste powder for CO2 capture
Chang et al.	2018	One-step strategic synthesis of x% Ni–AlSBA-15 sorbents and properties of high adsorption desulfurization for model and commercial liquid fuels

Abdouss et al., 2014 - Google Patents

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