Xing Xia
13 Papers
Xing Xia is an academic researcher. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 2, co-authored 3 publications.
Chat about Author
Papers
Molecular Mechanisms of Chromium(III) Immobilization by Organo-Ferrihydrite Co-precipitates: The Significant Roles of Ferrihydrite and Carboxyl
TL;DR: New molecular-level insights are provided into the Cr( III) retention mechanisms on the OFC, particularly for the interactions of Cr(III) and OC constituent of the OfC, which could benefit the management of Cr-contaminated soils with straw returning.
69
Iron plaque formation, characteristics, and its role as a barrier and/or facilitator to heavy metal uptake in hydrophyte rice (Oryza sativa L.)
Peiman Zandi,Jian-Jun Yang,A. Y. Darma,Elke Bloem,Xing Xia,Yaosheng Wang,Qian Li,Ewald Schnug +7 more
TL;DR: More insight from wet extraction and advanced synchrotron-based analytical techniques has provided further evidence on how IP formation could significantly affect the fate of plant physiology and biomass production, particularly in contaminated settings.
45
Molecular sorption mechanisms of Cr(III) to organo-ferrihydrite coprecipitates using synchrotron-based EXAFS and STXM techniques
TL;DR: Findings facilitated the comprehensive understanding of the sorption mechanisms of Cr(III) to OFC at the molecular level, which will assist the prediction of Cr (III) mobility in soils, particularly for the Cr( III) contaminated agricultural soils with the application of crop straws.
41
Molecular Insights into Roles of Dissolved Organic Matter in Cr(III) Immobilization by Coprecipitation with Fe(III) Probed by STXM-Ptychography and XANES Spectroscopy.
Xing Xia,Jian Wang,Yongfeng Hu,Jin Hua Liu,Aminu Inuwa Darma,Lin Jin,Huijie Han,Chao He,Jian-Jun Yang +8 more
TL;DR: In this article , the authors investigated the coprecipitation of heavy metals (HMs) with Fe(III) in the presence of dissolved organic matter (DOMs) under different Fe/C molar ratios, pHs, and ionic strengths.
39
Synergistic effects of Cd-loving Bacillus sp. N3 and iron oxides on immobilizing Cd and reducing wheat uptake of Cd.
TL;DR: In this paper , batch and pot experiments were conducted to investigate the immobilization mechanisms of Cd by Cd-loving Bacillus sp. N3 and ferrihydrite (Fh) as well as their impacts on Cd uptake by wheat and bacterial community composition in wheat rhizospheric soil.
30