Development of Lignin-Based Mesoporous Carbons for the Adsorption of Humic Acid

M.A. Jedrzejczyk; J. Engelhardt; M.R. Djokic; V. Bliznuk; K.M. Van Geem; A. Verberckmoes; J. De Clercq; K.V. Bernaerts

doi:10.1021/acsomega.1c01475

Development of Lignin-Based Mesoporous Carbons for the Adsorption of Humic Acid

M.A. Jedrzejczyk, J. Engelhardt, M.R. Djokic, V. Bliznuk, K.M. Van Geem, A. Verberckmoes, J. De Clercq^*, K.V. Bernaerts^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

6 Citations (Web of Science)

Abstract

There is an increasing urge to make the transition toward biobased materials. Lignin, originating from lignocellulosic biomass, can be potentially valorized as humic acid (HA) adsorbents via lignin-based mesoporous carbon (MC). In this work, these materials were synthesized for the first time starting from modified lignin as the carbon precursor, using the soft-template methodology. The use of a novel synthetic approach, Claisen rearrangement of propargylated lignin, and a variety of surfactant templates (Pluronic, Kraton, and Solsperse) have been demonstrated to tune the properties of the resulting MCs. The obtained materials showed tunable properties (BET surface area: 95-367 m(2)/g, pore size: 3.3-36.6 nm V-BJH pore volume: 0.05-0.33 m(3)/g, and carbon land oxygen content: 55.5-91.1 and 3.0-12.2%, respectively) and good performance in terms of one of the highest HA adsorption capacities reported for carbon adsorbents (up to 175 mg/g).

Original language	English
Pages (from-to)	15222-15235
Number of pages	14
Journal	Acs omega
Volume	6
Issue number	23
DOIs	https://doi.org/10.1021/acsomega.1c01475
Publication status	Published - 15 Jun 2021

Keywords

HIERARCHICAL POROUS CARBON
NATURAL ORGANIC-MATTER
ENHANCED ADSORPTION
AQUEOUS-SOLUTIONS
ACTIVATED CARBON
ENERGY-STORAGE
REMOVAL
CHEMICALS
BIOMASS
WATER

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Cite this

@article{53eb5e2a0e2342b592e5787b27fffb01,

title = "Development of Lignin-Based Mesoporous Carbons for the Adsorption of Humic Acid",

abstract = "There is an increasing urge to make the transition toward biobased materials. Lignin, originating from lignocellulosic biomass, can be potentially valorized as humic acid (HA) adsorbents via lignin-based mesoporous carbon (MC). In this work, these materials were synthesized for the first time starting from modified lignin as the carbon precursor, using the soft-template methodology. The use of a novel synthetic approach, Claisen rearrangement of propargylated lignin, and a variety of surfactant templates (Pluronic, Kraton, and Solsperse) have been demonstrated to tune the properties of the resulting MCs. The obtained materials showed tunable properties (BET surface area: 95-367 m(2)/g, pore size: 3.3-36.6 nm V-BJH pore volume: 0.05-0.33 m(3)/g, and carbon land oxygen content: 55.5-91.1 and 3.0-12.2%, respectively) and good performance in terms of one of the highest HA adsorption capacities reported for carbon adsorbents (up to 175 mg/g).",

keywords = "HIERARCHICAL POROUS CARBON, NATURAL ORGANIC-MATTER, ENHANCED ADSORPTION, AQUEOUS-SOLUTIONS, ACTIVATED CARBON, ENERGY-STORAGE, REMOVAL, CHEMICALS, BIOMASS, WATER",

author = "M.A. Jedrzejczyk and J. Engelhardt and M.R. Djokic and V. Bliznuk and {Van Geem}, K.M. and A. Verberckmoes and {De Clercq}, J. and K.V. Bernaerts",

year = "2021",

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doi = "10.1021/acsomega.1c01475",

language = "English",

volume = "6",

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TY - JOUR

T1 - Development of Lignin-Based Mesoporous Carbons for the Adsorption of Humic Acid

AU - Jedrzejczyk, M.A.

AU - Engelhardt, J.

AU - Djokic, M.R.

AU - Bliznuk, V.

AU - Van Geem, K.M.

AU - Verberckmoes, A.

AU - De Clercq, J.

AU - Bernaerts, K.V.

PY - 2021/6/15

Y1 - 2021/6/15

N2 - There is an increasing urge to make the transition toward biobased materials. Lignin, originating from lignocellulosic biomass, can be potentially valorized as humic acid (HA) adsorbents via lignin-based mesoporous carbon (MC). In this work, these materials were synthesized for the first time starting from modified lignin as the carbon precursor, using the soft-template methodology. The use of a novel synthetic approach, Claisen rearrangement of propargylated lignin, and a variety of surfactant templates (Pluronic, Kraton, and Solsperse) have been demonstrated to tune the properties of the resulting MCs. The obtained materials showed tunable properties (BET surface area: 95-367 m(2)/g, pore size: 3.3-36.6 nm V-BJH pore volume: 0.05-0.33 m(3)/g, and carbon land oxygen content: 55.5-91.1 and 3.0-12.2%, respectively) and good performance in terms of one of the highest HA adsorption capacities reported for carbon adsorbents (up to 175 mg/g).

AB - There is an increasing urge to make the transition toward biobased materials. Lignin, originating from lignocellulosic biomass, can be potentially valorized as humic acid (HA) adsorbents via lignin-based mesoporous carbon (MC). In this work, these materials were synthesized for the first time starting from modified lignin as the carbon precursor, using the soft-template methodology. The use of a novel synthetic approach, Claisen rearrangement of propargylated lignin, and a variety of surfactant templates (Pluronic, Kraton, and Solsperse) have been demonstrated to tune the properties of the resulting MCs. The obtained materials showed tunable properties (BET surface area: 95-367 m(2)/g, pore size: 3.3-36.6 nm V-BJH pore volume: 0.05-0.33 m(3)/g, and carbon land oxygen content: 55.5-91.1 and 3.0-12.2%, respectively) and good performance in terms of one of the highest HA adsorption capacities reported for carbon adsorbents (up to 175 mg/g).

KW - HIERARCHICAL POROUS CARBON

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KW - ENHANCED ADSORPTION

KW - AQUEOUS-SOLUTIONS

KW - ACTIVATED CARBON

KW - ENERGY-STORAGE

KW - REMOVAL

KW - CHEMICALS

KW - BIOMASS

KW - WATER

U2 - 10.1021/acsomega.1c01475

DO - 10.1021/acsomega.1c01475

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