Preparation and adsorption ability of tri-amino-modified assembled periodic mesoporous silicates particles

ZHANG Meng;QIN Rui;WANG Li;LI Rong-hua;YANG Ya-ti;ZHANG Zeng-qiang;LI Zhong-hong;College of Natural Resources and Environment,Northwest A&F University;Key Laboratory of Plant Nutrition and the Agri-encironment in Norhtwast China,Ministry of Agricultre,Northwest A&F University;College of Science,Northwest A&F University;College of Food Science and Engineering,Northwest A&F University;

amino-modification;;assembled periodic mesoporous silicates;;co-condensation;;post-graft-ing;;Cu2+adsorption

【Objective】Aiming to promote the utilization of assembled periodic mesoporous silicates in heavy metal removal,adsorption ability of tri-amino-modified assembled periodic mesoporous silicates particles(3N-APMSs)was investigated.【Method】3N-APMSs were synthesized through co-condensation and post-grafting method using trimethoxysilyl propyl diethylenetriamine(TPDA)as modifier,and their ability to adsorb Cu2+was investigated through batch experiments.Effects of deionized water,0.01mol/L EDTA and 0.1mol/L HCl on regeneration of 3N-APMSs were studied as well.【Result】FTIR analysis showed that 3N-APMSs were successfully synthesized.The modification led to the decrease of average pore size, pore volume,as well as specific surface area.3N-APMSs prepared by co-condensation showed lower Cu2+ adsorption rate than that prepared by post grafting method,but 3N-APMSs prepared by both methods had>99.5% Cu2+adsorption rate after 12hours.0.01mol/L EDTA and 0.1mol/L HCl were suitable for 3N-APMSs regeneration.【Conclusion】Co-condensation method was more efficient in assembling functional groups in highly ordered dispersed condition than post-grafting method.Both methods could be used in 3NAPMSs preparation.The Cu2+adsorption was not a simple Van der Waals force controlled physical adsorption process.