Removal of sulfamethoxazole and methylparaben using hydrocolloid and fiber industry wastes: Comparison with biochar and laccase-biocomposite

Fernández-Sanromán, Ángel; Acevedo-García, Valeria; Pazos, Marta; Rosales, Emílio

doi:10.1016/j.jclepro.2020.122436

Cited by 30 publications

(5 citation statements)

References 52 publications

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“…These elements make biochar a complementary source among the common carbonaceous nutrients provided in culture media for laccase production WRF. Besides, the large specific area and pore size, and the existence of specific chemical groups on biochar surface favor its adsorptive capacity, which can also be related to the molecular size of the enzyme ( Rajapaksha et al, 2016 ; Li et al, 2018 ; Fernandez-Sanroman et al, 2020 ; Pandey et al, 2020 ). Several studies have reported the successful enhancement of laccase production and immobilization on biochar either by adsorption or covalent bonds ( Lonappan et al, 2018a ; Li et al, 2018 ; Fernandez-Sanroman et al, 2020 ; Pandey et al, 2020 ; Imam et al, 2021 ).…”

Section: Carbonaceous Materials In Laccase Production and As A Support For Their Immobilizationmentioning

confidence: 99%

“…In both cases, as discussed in other sections, these organic and inorganic components in the biochar exert regulatory actions on laccase production, either as promoting or inhibiting agents ( Giller et al, 1998 ). Due to its physicochemical characteristics, i.e ., its high porosity and hydrophobicity ( Taskin et al, 2019b ), biochar can demonstrate high affinity for organic and inorganic contaminants ( Taskin et al, 2019b ; Fernandez-Sanroman et al, 2020 ). This property allows its use as a sorbent of organic or inorganic pollutants for soil amendments ( Taskin et al, 2019b ).…”

Section: Carbonaceous Materials In Laccase Production and As A Support For Their Immobilizationmentioning

confidence: 99%

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Recent Developments in the Immobilization of Laccase on Carbonaceous Supports for Environmental Applications - A Critical Review

Adamian

Lonappan

Alokpa

et al. 2021

Front. Bioeng. Biotechnol.

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Τhe ligninolytic enzyme laccase has proved its potential for environmental applications. However, there is no documented industrial application of free laccase due to low stability, poor reusability, and high costs. Immobilization has been considered as a powerful technique to enhance laccase’s industrial potential. In this technology, appropriate support selection for laccase immobilization is a crucial step since the support could broadly affect the properties of the resulting catalyst system. Through the last decades, a large variety of inorganic, organic, and composite materials have been used in laccase immobilization. Among them, carbon-based materials have been explored as a support candidate for immobilization, due to their properties such as high porosity, high surface area, the existence of functional groups, and their highly aromatic structure. Carbon-based materials have also been used in culture media as supports, sources of nutrients, and inducers, for laccase production. This study aims to review the recent trends in laccase production, immobilization techniques, and essential support properties for enzyme immobilization. More specifically, this review analyzes and presents the significant benefits of carbon-based materials for their key role in laccase production and immobilization.

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Section: Carbonaceous Materials In Laccase Production and As A Support For Their Immobilizationmentioning

confidence: 99%

Section: Carbonaceous Materials In Laccase Production and As A Support For Their Immobilizationmentioning

confidence: 99%

Recent Developments in the Immobilization of Laccase on Carbonaceous Supports for Environmental Applications - A Critical Review

Adamian

Lonappan

Alokpa

et al. 2021

Front. Bioeng. Biotechnol.

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“…[187] The adsorption capacity for removal of organic pollutants was enhanced using immobilised laccase compared to without laccase. [191] Laccase Adsorption…”

Section: Adsorption and Covalent Bondingmentioning

confidence: 99%

Recent Advances in Enzyme Immobilisation Strategies: An Overview of Techniques and Composite Carriers

Mohidem,

Mohamad,

Rashid

et al. 2023

J. Compos. Sci.

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For over a century, enzyme immobilisation has been proven to be a superior strategy to improve catalytic activity and reusability and ensure easy separation, easy operation, and reduced cost. Enzyme immobilisation allows for an easier separation of the enzyme from the reaction mixture, thus simplifying downstream processing. This technology protects the enzyme from degradation or inactivation by harsh reaction conditions, making it more robust and suitable to be used in various applications. Recent strategies of immobilisation methods, such as adsorption, cross-linking, entrapment or encapsulation, and covalent bonding, were critically reviewed. These strategies have shown promising results in improving enzyme stability, activity, and reusability in various applications. A recent development in enzyme immobilisation in nanomaterials and agrowaste renewable carriers is underlined in the current review. Furthermore, the use of nanomaterials and agrowaste carriers in enzyme immobilisation has gained significant attention due to their unique properties, such as high surface area, high mass transfer, biocompatibility, and sustainability. These materials offer promising outcomes for developing more efficient and sustainable immobilised enzymes. This state-of-the-art strategy allows for better control over enzyme reactions and enhances their reusability, leading to more cost-effective and environmentally friendly processes. The use of renewable materials also helps to reduce waste generation and promote the utilisation of renewable resources, further contributing to the development of a circular economy.

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“…To date, there have been extensive literature reports of the application of adsorption of pollutants on biochars or hydrochars in line with the concept of circular economy [14][15][16] and their use in pollutant removal from different types of waters [17]. These carbonaceous materials with a high specific area, good electrical conductivity and low manufacturing cost are recognised as cost-effective adsorbents [16].…”

Section: Introductionmentioning

confidence: 99%

Electro-Fenton degradation of a ternary pharmaceutical mixture and its application in the regeneration of spent biochar

Puga

Moreira

Figueiredo

et al. 2021

Journal of Electroanalytical Chemistry

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Removal of sulfamethoxazole and methylparaben using hydrocolloid and fiber industry wastes: Comparison with biochar and laccase-biocomposite

Cited by 30 publications

References 52 publications

Recent Developments in the Immobilization of Laccase on Carbonaceous Supports for Environmental Applications - A Critical Review

Recent Developments in the Immobilization of Laccase on Carbonaceous Supports for Environmental Applications - A Critical Review

Recent Advances in Enzyme Immobilisation Strategies: An Overview of Techniques and Composite Carriers

Electro-Fenton degradation of a ternary pharmaceutical mixture and its application in the regeneration of spent biochar

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