Colloidal interactions of micro-sized biochar and a kaolinitic soil clay

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Nga T. Mai
  • Anh M. Nguyen
  • Nga T.T. Pham
  • Anh T.Q. Nguyen
  • Thom T. Nguyen
  • Chi L. Do
  • Nam H. Nguyen
  • Stefan Dultz
  • Minh N. Nguyen

Research Organisations

External Research Organisations

  • Vietnam National University
  • Ha Tay Community College (HTCC)
  • Vietnam Academy of Agricultural Sciences (Vaas)
  • Tay Nguyen University (TNU)
  • Hanoi University of Technology
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Details

Original languageEnglish
Article number139844
JournalScience of the Total Environment
Volume738
Early online date1 Jun 2020
Publication statusPublished - 10 Oct 2020

Abstract

Fine-sized biochars and clay minerals co-present in various circumstances, e.g., agricultural land and water treatment. Because both of these materials are scavengers for nutrients, agrochemicals and other toxicants, their dispersibility and transportability have received much attention. However, little is documented about their colloidal interactions and to what extent biochar particles can stimulate the dispersion of clay minerals. Here, the effect of engineered micro-sized biochar amendment on the surface charge (SC) and colloidal dynamics of the clay fraction of a kaolinite-rich soil was determined. The engineered biochars showed distinctive SC and colloidal properties depending on their pyrolysis conditions (e.g., oxygen level and temperature) and solution chemistry (i.e., pH and cation type). Two types of biochars prepared under non-biochar-oriented pyrolysis (open heating, ‘O-biochar’) and biochar-oriented pyrolysis (N2-supported heating, ‘N2-biochar’) showed contrasting effects on the colloidal dynamics of clay. The O-biochars provoked aggregation due to their higher content of soluble salts, which increased ionic strength and provided multivalent cations, inducing bridging between negatively charged colloids. In contrast, the N2 biochars low in soluble salts and rich in negatively charged burned organic matter compounds favoured the dispersion of clay. The adjustment of biochar production methods can therefore be highlighted as the way to customize biochar for specific uses or to reduce the risk of clay loss from soils in the short term. In the long term, when soluble salts are removed by leaching, it is likely that dispersion is facilitated and the risk for erosion increases.

Keywords

    Biochar, Colloidal properties, Pyrolysis conditions, Soil clay, Surface charge

ASJC Scopus subject areas

Cite this

Colloidal interactions of micro-sized biochar and a kaolinitic soil clay. / Mai, Nga T.; Nguyen, Anh M.; Pham, Nga T.T. et al.
In: Science of the Total Environment, Vol. 738, 139844, 10.10.2020.

Research output: Contribution to journalArticleResearchpeer review

Mai, NT, Nguyen, AM, Pham, NTT, Nguyen, ATQ, Nguyen, TT, Do, CL, Nguyen, NH, Dultz, S & Nguyen, MN 2020, 'Colloidal interactions of micro-sized biochar and a kaolinitic soil clay', Science of the Total Environment, vol. 738, 139844. https://doi.org/10.1016/j.scitotenv.2020.139844
Mai, N. T., Nguyen, A. M., Pham, N. T. T., Nguyen, A. T. Q., Nguyen, T. T., Do, C. L., Nguyen, N. H., Dultz, S., & Nguyen, M. N. (2020). Colloidal interactions of micro-sized biochar and a kaolinitic soil clay. Science of the Total Environment, 738, Article 139844. https://doi.org/10.1016/j.scitotenv.2020.139844
Mai NT, Nguyen AM, Pham NTT, Nguyen ATQ, Nguyen TT, Do CL et al. Colloidal interactions of micro-sized biochar and a kaolinitic soil clay. Science of the Total Environment. 2020 Oct 10;738:139844. Epub 2020 Jun 1. doi: 10.1016/j.scitotenv.2020.139844
Mai, Nga T. ; Nguyen, Anh M. ; Pham, Nga T.T. et al. / Colloidal interactions of micro-sized biochar and a kaolinitic soil clay. In: Science of the Total Environment. 2020 ; Vol. 738.
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title = "Colloidal interactions of micro-sized biochar and a kaolinitic soil clay",
abstract = "Fine-sized biochars and clay minerals co-present in various circumstances, e.g., agricultural land and water treatment. Because both of these materials are scavengers for nutrients, agrochemicals and other toxicants, their dispersibility and transportability have received much attention. However, little is documented about their colloidal interactions and to what extent biochar particles can stimulate the dispersion of clay minerals. Here, the effect of engineered micro-sized biochar amendment on the surface charge (SC) and colloidal dynamics of the clay fraction of a kaolinite-rich soil was determined. The engineered biochars showed distinctive SC and colloidal properties depending on their pyrolysis conditions (e.g., oxygen level and temperature) and solution chemistry (i.e., pH and cation type). Two types of biochars prepared under non-biochar-oriented pyrolysis (open heating, {\textquoteleft}O-biochar{\textquoteright}) and biochar-oriented pyrolysis (N2-supported heating, {\textquoteleft}N2-biochar{\textquoteright}) showed contrasting effects on the colloidal dynamics of clay. The O-biochars provoked aggregation due to their higher content of soluble salts, which increased ionic strength and provided multivalent cations, inducing bridging between negatively charged colloids. In contrast, the N2 biochars low in soluble salts and rich in negatively charged burned organic matter compounds favoured the dispersion of clay. The adjustment of biochar production methods can therefore be highlighted as the way to customize biochar for specific uses or to reduce the risk of clay loss from soils in the short term. In the long term, when soluble salts are removed by leaching, it is likely that dispersion is facilitated and the risk for erosion increases.",
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TY - JOUR

T1 - Colloidal interactions of micro-sized biochar and a kaolinitic soil clay

AU - Mai, Nga T.

AU - Nguyen, Anh M.

AU - Pham, Nga T.T.

AU - Nguyen, Anh T.Q.

AU - Nguyen, Thom T.

AU - Do, Chi L.

AU - Nguyen, Nam H.

AU - Dultz, Stefan

AU - Nguyen, Minh N.

N1 - Funding information: This research is supported by the VinTech Fund , a grant for applied research managed by VinTech City.

PY - 2020/10/10

Y1 - 2020/10/10

N2 - Fine-sized biochars and clay minerals co-present in various circumstances, e.g., agricultural land and water treatment. Because both of these materials are scavengers for nutrients, agrochemicals and other toxicants, their dispersibility and transportability have received much attention. However, little is documented about their colloidal interactions and to what extent biochar particles can stimulate the dispersion of clay minerals. Here, the effect of engineered micro-sized biochar amendment on the surface charge (SC) and colloidal dynamics of the clay fraction of a kaolinite-rich soil was determined. The engineered biochars showed distinctive SC and colloidal properties depending on their pyrolysis conditions (e.g., oxygen level and temperature) and solution chemistry (i.e., pH and cation type). Two types of biochars prepared under non-biochar-oriented pyrolysis (open heating, ‘O-biochar’) and biochar-oriented pyrolysis (N2-supported heating, ‘N2-biochar’) showed contrasting effects on the colloidal dynamics of clay. The O-biochars provoked aggregation due to their higher content of soluble salts, which increased ionic strength and provided multivalent cations, inducing bridging between negatively charged colloids. In contrast, the N2 biochars low in soluble salts and rich in negatively charged burned organic matter compounds favoured the dispersion of clay. The adjustment of biochar production methods can therefore be highlighted as the way to customize biochar for specific uses or to reduce the risk of clay loss from soils in the short term. In the long term, when soluble salts are removed by leaching, it is likely that dispersion is facilitated and the risk for erosion increases.

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KW - Biochar

KW - Colloidal properties

KW - Pyrolysis conditions

KW - Soil clay

KW - Surface charge

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DO - 10.1016/j.scitotenv.2020.139844

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VL - 738

JO - Science of the Total Environment

JF - Science of the Total Environment

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