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Baoliang Chen
Researcher at Zhejiang University
Publications - 204
Citations - 16584
Baoliang Chen is an academic researcher from Zhejiang University. The author has contributed to research in topics: Adsorption & Chemistry. The author has an hindex of 54, co-authored 162 publications receiving 12131 citations. Previous affiliations of Baoliang Chen include Third Military Medical University & University of Massachusetts Amherst.
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Transitional Adsorption and Partition of Nonpolar and Polar Aromatic Contaminants by Biochars of Pine Needles with Different Pyrolytic Temperatures
TL;DR: Biochars, produced by pyrolysis of pine needles at different temperatures, were characterized by elemental analysis, BET-N2 surface areas and FTIR, and Sorption isotherms of naphthalene, nitrobenzene, and m-dinitrobenZene from water to the biochars were compared.
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A novel magnetic biochar efficiently sorbs organic pollutants and phosphate
TL;DR: It is suggested that the magnetic biochar is a potential sorbent to remove organic contaminants and phosphate simultaneously from wastewater.
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Adsorption of Polycyclic Aromatic Hydrocarbons by Graphene and Graphene Oxide Nanosheets
TL;DR: The adsorption of naphthalene, phenanthrene, and pyrene onto graphene (GNS) and graphene oxide (GO) nanosheets was investigated to probe the potential adsorptive sites and molecular mechanisms.
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Effects and mechanisms of biochar-microbe interactions in soil improvement and pollution remediation: A review.
TL;DR: This review links microbial responses, including microbial activity, community structures and soil enzyme activities, with changes in soil properties caused by biochars, and summarized possible mechanisms that are involved in the effects that biochar-microbe interactions have on soil carbon sequestration and pollution remediation.
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Sorption of naphthalene and 1-naphthol by biochars of orange peels with different pyrolytic temperatures.
Baoliang Chen,Zaiming Chen +1 more
TL;DR: Observations provide a reference to the use of biochars as engineered sorbents for environmental applications by identifying the maximal sorption capacity of 1-naphthol with low concentrations and naphthalene, and the OP700 displayed the maximal Sorption capacity.