Issue 13, 2021, Issue in Progress

Freezing/thawing pretreatment of dormant Aspergillus niger spores to increase the Cr(vi) adsorption capacity: process and mechanism

Abstract

Hexavalent chromium is a widespread pollutant that threatens ecological and human health. However, its removal from the environment is limited by the high cost and energy consumption rate of current technologies. In this study, the Cr(VI) biosorption mechanism of Aspergillus niger spores pretreated by freezing/thawing was studied by batch experiments and surface chemistry analyses. The results indicated that pretreatment enhanced the spores' Cr(VI) removal efficiency. The cell surface, internal functional groups, and morphology of the freezing/thawing-pretreated spores (FTPS) before and after Cr(VI) loading were characterized by advanced spectroscopy techniques such as SEM-EDAX, XPS, FTIR, and FETEM analyses. The SEM and BET data showed that the surface of FTPS was rougher than that of untreated spores. The XPS data showed that FTPS bio-transformed Cr(VI) into Cr(III). The intracellular localization of chromium was visualized by FETEM, and both surface and intracellular structures removed Cr(VI) following pseudo-second-order biosorption kinetics. The biosorption dynamics of Cr(VI) fit the Langmuir isotherm model describing a monolayer. These results suggest that freezing/thawing pretreatment of A. niger spores could lead to the development of a novel, efficient biomaterial for the removal of Cr(VI).

Graphical abstract: Freezing/thawing pretreatment of dormant Aspergillus niger spores to increase the Cr(vi) adsorption capacity: process and mechanism

Article information

Article type
Paper
Submitted
03 Dec 2020
Accepted
02 Feb 2021
First published
17 Feb 2021
This article is Open Access
Creative Commons BY license

RSC Adv., 2021,11, 7704-7712

Freezing/thawing pretreatment of dormant Aspergillus niger spores to increase the Cr(VI) adsorption capacity: process and mechanism

B. Ren, L. Zhao, Y. Wang, X. Song, Y. Jin, F. Ouyang, C. Cui and H. Zhang, RSC Adv., 2021, 11, 7704 DOI: 10.1039/D0RA10198B

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