H
Haijia Su
Researcher at Beijing University of Chemical Technology
Publications - 71
Citations - 3474
Haijia Su is an academic researcher from Beijing University of Chemical Technology. The author has contributed to research in topics: Chemistry & Biology. The author has an hindex of 22, co-authored 53 publications receiving 2551 citations.
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Journal ArticleDOI
Visible-light-mediated synergistic photocatalytic antimicrobial effects and mechanism of Ag-nanoparticles@chitosan–TiO2 organic–inorganic composites for water disinfection
TL;DR: The present work provided an efficient water disinfection technology of realistic potential and also opened a new idea in designing visible-light-mediated photocatalytic antimicrobial agents and in studying the antimicrobial mechanism.
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Dark fermentative bio-hydrogen production: Effects of substrate pre-treatment and addition of metal ions or L-cysteine
Meidan Bao,Haijia Su,Tianwei Tan +2 more
TL;DR: In this article, two pure bacterial strains were jointly applied as mixed cultures in a single fermenter, thus combining the starch hydrolysis process and H 2 production process, and the H 2 yield of pre-treated corn starch reached 1.19% higher than that of untreated corn starch.
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Exploration of the relationship between biogas production and microbial community under high salinity conditions.
TL;DR: The results showed that a NaCl concentration of 20 g/L (H group) exhibited a similar level of VFAs and specific CO2 production rate with that in the blank group, thus indicating that the bacterial activity in acidogenesis might not be inhibited.
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Study of thermodynamics and dynamics of removing Cu(II) by biosorption membrane of Penicillium biomass.
TL;DR: The ability of the low cost biosorption membrane to remove Cu(II) ions from a solution was studied through batch and continuous experiments, and Langmuir adsorption isotherm models were found to accurately fit the batch experimental data indicating that sorption was of monolayer-mode.
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Fluoride-capped nanoceria as a highly efficient oxidase-mimicking nanozyme: inhibiting product adsorption and increasing oxygen vacancies.
Yilin Zhao,Yilin Zhao,Yawen Wang,Yawen Wang,Avi Mathur,Yaoqiang Wang,Vivek Maheshwari,Haijia Su,Juewen Liu +8 more
TL;DR: Fluoride capping inverses the surface charge of CeO2, facilitating desorption of the ABTS oxidation product, significantly increasing the turnover number and the role of nanoceria as a model for engineering the surface of nanozymes is confirmed.