Enhancement of Cd(II) adsorption by rice straw biochar through oxidant and acid modifications

He, Xian; Hong, Zhineng; Jiang, Jun; Dong, Guojun; Liu, Hui; Xu, Runsheng

doi:10.1007/s11356-021-13742-8

Cited by 31 publications

(6 citation statements)

References 35 publications

(49 reference statements)

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“…Additionally, two peaks at 2q of 27.18 and 29.28 belonged to the crystal structure of quartz and calcite, respectively. 39 The sharpness of the peak increased with increasing pyrolysis temperature from 400 to 800 C, which was due to the relative decrease of the amorphous organic phase and the increase of ash percentage. This result was also consistent with elemental analysis (Table 1).…”

Section: Biochar Yieldmentioning

confidence: 95%

Characterization of pruned tea branch biochar and the mechanisms underlying its adsorption for cadmium in aqueous solution

et al. 2021

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Section: Biochar Yieldmentioning

confidence: 95%

Characterization of pruned tea branch biochar and the mechanisms underlying its adsorption for cadmium in aqueous solution

et al. 2021

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“…In addition, H 3 PO 4 modification was beneficial to improve the phenolic group content and alkalinity of biochar, and the Pb adsorption capacity of the modified biochar was 5.41 times higher than unmodified biochar [66]. The carboxyl content on the surface of modified biochar increased significantly, which improved the adsorption capacity of biochar for heavy metals [67].…”

Section: Acid Modificationmentioning

confidence: 96%

Adsorption of Lead from Aqueous Solution by Biochar: A Review

Wang

et al. 2022

Clean Technol.

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Industrialization has resulted in the discharge of a certain amount of lead (Pb) from industrial sources causing damage risk to water quality and human health. Adsorption is an effective technique to remove Pb, and biochar has been widely studied owing to its advantages of low cost and high adsorption capacity. This review summarizes the influence of raw materials and modification methods on the adsorption capability of biochar. The adsorption isotherms and kinetics of biochar were summarized, and the main Pb removal mechanisms were studied systematically. In addition, the challenges and future perspectives were discussed comprehensively. It is expected that the review could provide insightful fundamentals for the experimental research and practical applications of biochar.

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“…However, the increase in carboxyl group content may be lower than when acid modification is used [148]. For example, compared to biochar modified with H 2 O 2 , biochar modified with HNO 3 /H 2 SO 4 had a higher carboxyl content [149]. Furthermore, the total acidic functional group content of HNO 3 /H 2 SO 4 -modified biochar was greater than that of H 2 O 2 /KMnO 4 -modified biochar, although the total basic functional group content was lower.…”

Section: Oxidant Modificationmentioning

confidence: 97%

Application of Selected Methods to Modify Pyrolyzed Biochar for the Immobilization of Metals in Soil: A Review

Gusiatin,

Rouhani

2023

Materials

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Soil contamination through heavy metals (HMs) is a serious environmental problem that needs to be addressed. One of the methods of remediating soils contaminated with HMs and reducing the environmental risks associated with them is to immobilize these HMs in the soil using specific amendment(s). The use of biochar as an organic amendment can be an environmentally friendly and practically feasible option, as (i) different types of biomass can be used for biochar production, which contributes to environmental sustainability, and (ii) the functionality of biochar can be improved, enabling efficient immobilization of HMs. Effective use of biochar to immobilize HMs in soil often requires modification of pristine biochar. There are various physical, chemical, and biological methods for modifying biochar that can be used at different stages of pyrolysis, i.e., before pyrolysis, during pyrolysis, and after pyrolysis. Such methods are still being intensively developed by testing different modification approaches in single or hybrid systems and investigating their effects on the immobilization of HMs in the soil and on the properties of the remediated soil. In general, there is more information on biochar modification and its performance in HM immobilization with physical and chemical methods than with microbial methods. This review provides an overview of the main biochar modification strategies related to the pyrolysis process. In addition, recent advances in biochar modification using physical and chemical methods, biochar-based composites, and biochar modified with HM-tolerant microorganisms are presented, including the effects of these methods on biochar properties and the immobilization of HMs in soil. Since modified biochar can have some negative effects, these issues are also addressed. Finally, future directions for modified biochar research are suggested in terms of scope, scale, timeframe, and risk assessment. This review aims to popularize the in situ immobilization of HMs with modified biochar.

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Enhancement of Cd(II) adsorption by rice straw biochar through oxidant and acid modifications

Cited by 31 publications

References 35 publications

Characterization of pruned tea branch biochar and the mechanisms underlying its adsorption for cadmium in aqueous solution

Characterization of pruned tea branch biochar and the mechanisms underlying its adsorption for cadmium in aqueous solution

Adsorption of Lead from Aqueous Solution by Biochar: A Review

Application of Selected Methods to Modify Pyrolyzed Biochar for the Immobilization of Metals in Soil: A Review

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