Silver Ion Modified Anionic Surfactant Templated Mesoporous Silica Adsorption Materials for the Removal of Dimethyl Sulfide at Ambient Temperature

Xiao Dan Zhang; Zhui Hui Hu; Dong Hui Zhang

doi:10.4028/www.scientific.net/AMR.512-515.2412

Paper Titles

Oxidative Esterification of Methacrolein to Methyl Methacrylate over La Doped Catalyst
p.2390

Preparation and Swelling Properties of P(AMPS-co-AM)/ Attapulgite Clay Superabsorbent Composite by Microwave Irradiation
p.2394

Research on Enzymological Characteristics of Moulds from Distiller's Yeast
p.2399

Research on Mass Transfer Coefficient Measurement Model of External-Loop Airlift Reactor
p.2405

Silver Ion Modified Anionic Surfactant Templated Mesoporous Silica Adsorption Materials for the Removal of Dimethyl Sulfide at Ambient Temperature
p.2412

Studies on Penicillium M2 Chitosanase Immobilized on CSG Hybrid Material by Cross-Linking Reaction
p.2419

Study of Preparation Metallocene Based LLDPE Extra-Fibers by Melt Electrospinning Process
p.2424

Study on Amorphous Silica Powder Properties
p.2428

Study on Comparison among Papermaking Powder Properties
p.2434

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 512-515Silver Ion Modified Anionic Surfactant Templated...

Silver Ion Modified Anionic Surfactant Templated Mesoporous Silica Adsorption Materials for the Removal of Dimethyl Sulfide at Ambient Temperature

Abstract:

Silver ion modified mesoporous silica (Ag-AMS-2) was prepared by using N-lauroyl-L-glutamic acid as structure directing agents and applied to dimethly sulfide (DMS) removal at ambient temperatures. The silver ion interacted with the amino group through coordination bonds and then the silver ion were as the adsorptive sites of the DMS. These Ag-AMS-2 materials were characterized by X-ray diffraction (XRD), nitrogen adsorption desorption, high-resolution transmission electron microscopy (HRTEM), thermal analysis and inductively coupled plasma optical emission spectrometry (ICP-OES). The performance of these Ag-AMS-2 materials as DMS adsorbents was tested using a dynamic breakthrough test. And these samples showed high removal efficiency and high saturation adsorption capacity of DMS.