Harnessing the power of MXenes: a comprehensive exploration of their photocatalytic potential in mitigating hazardous dyes and CO2 reduction

Gulzar, Ayesha; Haleem, Abdul; Rehman, Touseef Ur; Ullah, Mohib; Shah, Afzal; Ullah, Ihsan

doi:10.1007/s43939-024-00081-x

Discov Mater

2024

DOI: 10.1007/s43939-024-00081-x

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Harnessing the power of MXenes: a comprehensive exploration of their photocatalytic potential in mitigating hazardous dyes and CO2 reduction

Ayesha Gulzar,

Abdul Haleem,

Touseef Ur Rehman

et al.

Abstract: This comprehensive review extensively explores the potential applications of MXenes as versatile materials in the realm of photocatalysis, with a specific focus on their efficacy in mitigating hazardous dyes and CO2 to less harmful and friendly by-products. The review systematically investigates the unique properties that render MXenes well-suited for photocatalytic purposes and provides a thorough examination of their current state of research. It meticulously summarizes the successes and breakthroughs achiev… Show more

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Cited by 5 publications

References 204 publications

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Comprehensive Review on the MXene Nanomaterial for the Catalytic Reduction and Toward Light‐Driven Photocatalytic Destruction of Emerging Contaminants

Raj,

Siranjeevi,

Shabnum

et al. 2024

Environmental Quality Mgmt

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Hazardous inert pollutants, organic dyes, pharmaceuticals, and widespread discharge of pesticide contaminants into water sources due to population growth and global industrialization are becoming some of the world's most pressing health problems. A novel kind of carbonitride or transition metal carbide, known as two‐dimensional (2D) MXene materials, has shown promise in adsorbing several heavy pollutants, including lead, mercury, chromium, and copper. The removal of pollutants from watery environments using MXene nanocomposites is reviewed in this article. This review highlights the different synthesis methods and potential of MXene nanocomposites to improve water purification methods by offering a thorough overview of recent developments in their application for photocatalytic wastewater treatment. This review further explores existing constraints, looks at the mechanisms behind MXene‐mediated pollutant degradation, and suggests future research approaches to improve MXene nanomaterials for extensive ecological and wastewater treatment applications.

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Comprehensive Review on the MXene Nanomaterial for the Catalytic Reduction and Toward Light‐Driven Photocatalytic Destruction of Emerging Contaminants

Raj,

Siranjeevi,

Shabnum

et al. 2024

Environmental Quality Mgmt

View full text Add to dashboard Cite

show abstract

Synthesis of multifunctional nano composites incorporating halloysite nanoclay

Zohoori,

Torabi,

Gholami

et al. 2024

Discov Mater

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This study was conducted in which an innovative technique was utilized to extract the active components from cloves. These active substances were subsequently employed to formulate a nanocomposite, both with and without the inclusion of Halloysite nanoclay, utilizing an electrospinning apparatus. The morphology of the resulting nanocomposite was analyzed through FESEM, confirming the appropriateness of the electrospinning method and its conditions. Additionally, the effectiveness of both nanocomposite samples in reducing inflammation was evaluated. A comparative assessment was conducted to evaluate the strength, abrasion resistance, and bactericidal properties of the samples produced in accordance with AATCC standards. The findings revealed an enhancement of over 2.5 times in strength, an increase in abrasion resistance exceeding 91%, and notable antibacterial properties reaching up to 99%. In summary, the nanofiber derived from cloves exhibited promising attributes that may be applicable across various industries.

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Recent advances of MXene@MOF composites for catalytic water splitting and wastewater treatment approaches

Afzal,

Rehman,

Najam

et al. 2024

Chemosphere

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Harnessing the power of MXenes: a comprehensive exploration of their photocatalytic potential in mitigating hazardous dyes and CO2 reduction

Cited by 5 publications

References 204 publications

Comprehensive Review on the MXene Nanomaterial for the Catalytic Reduction and Toward Light‐Driven Photocatalytic Destruction of Emerging Contaminants

Comprehensive Review on the MXene Nanomaterial for the Catalytic Reduction and Toward Light‐Driven Photocatalytic Destruction of Emerging Contaminants

Synthesis of multifunctional nano composites incorporating halloysite nanoclay

Recent advances of MXene@MOF composites for catalytic water splitting and wastewater treatment approaches

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