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Porosity Design on Conjugated Microporous Poly(Aniline)S for Exceptional Mercury(II) Removal

Xiaoyu Lou, Jie Chen, Zhuo Xiong, Duanlian Tang, Xiaoyan Chen, Song Chen, Rong Dong, Changshen Ye, Ting Qiu

2021ACS Applied Materials & Interfaces46 citationsDOI

Abstract

The use of conjugated microporous polymers (CMPs) in practical wastewater treatment demands further design on the pore structure, otherwise their adsorption capacities toward heavy-metal ions were moderate. Here, we report a rational design approach, which produces hybrid molecular pores in conjugated microporous poly(aniline)s (CMPAs) for mercury removal. It is achieved through a delicate interval introduction of linkers with differential molecular lengths during polymerization, acquiring both diffusion channels and storage pores for radical enhancement of mass transfer and adsorption storage. The resulting CMPA-M featured a large adsorption capacity of 975 mg g–1 and rapid kinetics that could remove 94.8% of 50 mg g–1 of mercury(II) within a very short contact time of 48 s, with a promising initial adsorption rate h as high as 113 mg g–1 min–1, which was 2.54-fold larger in the adsorption capacity and 45.2-fold faster in the adsorption efficiency compared with the undeveloped CMPAs. More importantly, our CMPA-M-2, with robust stability and easy reusability, was able to scavenge over 99.9% of mercury(II) from the actual wastewater in a harsh condition with a very low pH of 0.77, extremely high salinity of 53,157 mg L–1, and complex impurities, featuring exceptional selectivity that allows us to extract and recycle a high purity of 99.1% of mercury from the wastewater. These outcomes demonstrate the unprecedented potential of CMPs for environmental remediation and real-world mercury extraction and present benchmarks for CMP-based mercury adsorbents.

Topics & Concepts

AdsorptionMercury (programming language)Microporous materialConjugated microporous polymerMaterials scienceChemical engineeringAnilineNanocompositePolymerizationPolymerOrganic chemistryNanotechnologyChemistryComposite materialComputer scienceProgramming languageEngineeringCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsLuminescence and Fluorescent Materials
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