首页|Modeling of linear nanopores in a-SiO2 tuning pore surface structure
Modeling of linear nanopores in a-SiO2 tuning pore surface structure
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NSTL
New strategies are presented for the generation of models for linear nanopores in amorphous silica(a-SiO2)with surface structure tuned to match experimental observations.Specifically,the models successfully target not only the overall density of surface silanol groups,but also the proportion of geminal versus mono silanols for which additional experimental NMR data is reported.The latter quantity has not been appropriately described in previous modeling,and in fact has typically not been considered.Strategies include"pore drilling"of bulk a-SiO2,and"cylindrical resist"methodology forming a-SiO2 around a cylindrical exclusion region,followed by dehydroxylation and hydroxylation processes,respectively.However,these latter processes must be judiciously tailored in order to tune the proportion of geminals,in addition to the overall silanol density,to achieve experimental values.Such tailoring has not been incorporated into previous modeling.Another approach considered tunes surface structure of pores obtained by"pore drilling"through mild annealing.
NSTL
