摘要
Designing efficient adsorbents for the deep removal of refractory dibenzothiophene(DBT)from fuel oil is vital for addressing environmental issues such as acid rain.Herein,zinc gluconate and urea-derived porous carbons SF-ZnNC-T(T represents the carbonization temperature)were synthesized without solvents.Through a temperature-controlled process of“melting the zinc gluconate and urea mixture,forming H-bonded polymers,and carbonizing the polymers,”the optimal carbon,SF-ZnNC-900,was obtained with a large surface area(2280 m^(2)g^(-1),highly dispersed Zn sites,and hierarchical pore structures.Consequently,SF-ZnNC-900 demonstrated significantly higher DBT adsorption capacity of43.2 mg S g^(-1),compared to just 4.3 mg S g^(-1)for the precursor.It also demonstrated good reusability,fast adsorption rate,and the ability for ultra-deep desulfurization.The superior DBT adsorption performance resulted from the evaporation of residual zinc species,which generated abundant mesopores that facilitated DBT transformation,as well as the formation of Zn-N_(x) sites that strengthened the host-vip interaction(ΔE=-1.466 e V).The solvent-free synthesized highly dispersed Zn-doped carbon shows great potential for producing sulfur-free fuel oil and for designing metal-loaded carbon adsorbents.
基金
supported by the National Natural Science Foundation of China(Grant No.22378065,22278077,22278076)。
