Preparation of Mesoporous Biomass Carbon Derived from Corn Stalks and Formation Mechanism

Yu, Kaifeng; Zhu, He; Li, Mingyu; Zhang, Hanxiang

doi:10.1002/slct.201701695

Cited by 4 publications

(2 citation statements)

References 30 publications

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“…Vast pore structures could be obtained by removing the templates from the final products. Moreover, some of these BET surface area and pore volume values were higher than those of some reported biomass derived mesoporous carbons such as corn stalks derived mesoporous carbon with a 737 m 2 /g surface area (Yu et al 2017) produced via pyrolysis and activation. β-Cyclodextrin-derived mesoporous carbons with the highest BET surface area and pore volume of 860 and 0.46 cm 3 /g, respectively (Xin et al 2017) and hydroxymethyl furfural derived mesoporous carbon with a specific surface area of 451 m 2 /g and pore volume of 0.36 cm 3 /g (Wang et al 2016) from hydrothermal method have been reported.…”

Section: Characterizationmentioning

confidence: 69%

Mesoporous biochar derived from bamboo waste: Template/hydrothermal preparation and highly efficient pharmaceutical adsorption

Zhang

et al. 2023

BioRes

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In order to explore the feasibility of using template/hydrothermal method to produce mesoporous biochars from real biomass directly for adsorptive removal of pharmaceuticals, six mesoporous biochar samples were produced from bamboo waste through this method and characterized, and their adsorption capabilities for berberine hydrochloride and matrine from water were evaluated. Characterization results confirmed the mesoporous structures of the biochar samples, and the biochars had BET surface areas in the range of 180 to 880 m2/g. Pore properties of the biochars mainly depended on the synthesis compositions and were related to their adsorption capabilities. The bamboo derived mesoporous biochars provided effective adsorption with the highest uptake amounts of 645 and 496 mg/g for berberine hydrochloride and matrine at 0.1 mg/mL and 298 K, respectively. The adsorption equilibrium could be reached in 90 min for berberine hydrochloride and 60 min for matrine on the selected mesoporous biochar. This study provides an effective strategy to produce biomass derived mesoporous biochars as efficient adsorbents in water treatment and pharmaceutical purification.

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Section: Characterizationmentioning

confidence: 69%

Mesoporous biochar derived from bamboo waste: Template/hydrothermal preparation and highly efficient pharmaceutical adsorption

Zhang

et al. 2023

BioRes

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“…Some representative cases are summarized in Table . Utilizing corn, corn byproducts, and corn industrial products to produce nanostructured carbonaceous materials as anodes has been proposed as well. ,,− Some representative cases are summarized in Table . In this section, two representative cases are reviewed in detail.…”

Section: Corn-mediated Carbonaceous Materials As Anodes In Lithium-io...mentioning

confidence: 99%

Innovative and Economically Beneficial Use of Corn and Corn Products in Electrochemical Energy Storage Applications

Jin

et al. 2021

ACS Sustainable Chem. Eng.

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The United States is by far the largest corn producer worldwide, with corn yields steadily increasing for the past decades. In many midwestern U.S. states such as Iowa, Illinois, and Nebraska, corn farmers currently grow more corn than consumers can utilize as human food or animal feed. To sustain the economic viability of corn farmers, it is critical that new uses and markets for corn, corn byproducts from harvesting, corn industrial products, and corn byproducts from industrial processing should be discovered, giving the highest return to corn producers. With the increasing popularity of electric vehicles and grid-level energy storage systems for renewable energy, there has been an evergrowing interest in improving existing energy storage technologies as well as developing new ones. During this development, a great amount of effort has been focused on exploiting cost-effective solutions utilizing sustainable materials derived from renewable biomass. In this Perspective, innovative and economically beneficial uses of corn and corn products in various energy storage applications, such as lithium-ion batteries, solid-state batteries, and redox flow batteries, are looked at comprehensively, which may shed light on how to establish an environmentally sustainable, technically feasible, and economically beneficial solution to support the corn industry.

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Molten salt assisted conversion of corn lignocellulosic waste into carbon nanostructures with enhanced Li-ion storage performance

Li¹,

Kamali²

2023

Chemical Engineering Science

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Preparation of Mesoporous Biomass Carbon Derived from Corn Stalks and Formation Mechanism

Cited by 4 publications

References 30 publications

Mesoporous biochar derived from bamboo waste: Template/hydrothermal preparation and highly efficient pharmaceutical adsorption

Mesoporous biochar derived from bamboo waste: Template/hydrothermal preparation and highly efficient pharmaceutical adsorption

Innovative and Economically Beneficial Use of Corn and Corn Products in Electrochemical Energy Storage Applications

Molten salt assisted conversion of corn lignocellulosic waste into carbon nanostructures with enhanced Li-ion storage performance

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