Critical Review on Sustainability in Denim: A Step toward Sustainable Production and Consumption of Denim

Periyasamy, Aravin Prince; Periyasami, Saravanan

doi:10.1021/acsomega.2c06374

Cited by 36 publications

(14 citation statements)

References 143 publications

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“…55 Over time, a diverse array of organic molecules capable of fluorescing in different colors have been discovered or synthesized. Two notable examples are fluorescein 56 and rhodamine 57 derivatives, initially reported in the late 19th century. These compounds have gained significance as representative platforms extensively utilized in contemporary fluorescent labels and probes for bioimaging applications.…”

Section: Small Molecules As Fluorimetric Probesmentioning

confidence: 99%

Small Molecule Optical Probes for Detection of H₂S in Water Samples: A Review

Kulkarni,

Sunil

2024

ACS Omega

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Hydrogen sulfide (H 2 S) is closely linked to not only environmental hazards, but also it affects human health due to its toxic nature and the exposure risks associated with several occupational settings. Therefore, detection of this pollutant in water sources has garnered immense importance in the analytical research arena. Several research groups have devoted great efforts to explore the selective as well as sensitive methods to detect H 2 S concentrations in water. Recent studies describe different strategies for sensing this ubiquitous gas in real-life water samples. Though many of the designed and developed H 2 S detection approaches based on the use of organic small molecules facilitate qualitative/quantitative detection of the toxic contaminant in water, optical detection has been acknowledged as one of the best, attributed to the simple, highly sensitive, selective, and good repeatability features of the technique. Therefore, this review is an attempt to offer a general perspective of easy-to-use and fast response optical detection techniques for H 2 S, fluorimetry and colorimetry, over a wide variety of other instrumental platforms. The review affords a concise summary of the various design strategies adopted by various researchers in constructing small organic molecules as H 2 S sensors and offers insight into their mechanistic pathways. Moreover, it collates the salient aspects of optical detection techniques and highlights the future scope for prospective exploration in this field based on the limitations of the existing H 2 S probes.

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Section: Small Molecules As Fluorimetric Probesmentioning

confidence: 99%

Small Molecule Optical Probes for Detection of H₂S in Water Samples: A Review

Kulkarni,

Sunil

2024

ACS Omega

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“…These heavy metals are non-biodegradable and difficult to clean up due to their complicated chemical makeup [ 58 ]. Consequently, the microfibers released from these textile materials contain heavy metals, which have carcinogenic, toxic, and nonbiodegradable effects that, in turn, cause enormous environmental problems [ 59 , 60 , 61 ]. Additionally, the metals are coated on the surface of the fibers to produce conductive textiles for electromagnetic shielding applications [ 62 , 63 , 64 , 65 ].…”

Section: Textile Functionalization As the Source Of Microfiber Toxicitymentioning

confidence: 99%

“…Vat dye is particularly effective in coloring cellulose fibers, and it has excellent fastness against various agents such as detergent, bleach, and light due to its insoluble nature in water [ 61 , 87 , 88 , 89 ] ( Figure 5 ). Indigo, a natural dye extracted from the Indigofera plant, is the best example of a vat dye [ 90 , 91 ].…”

Section: Textile Functionalization As the Source Of Microfiber Toxicitymentioning

confidence: 99%

Microfiber Emissions from Functionalized Textiles: Potential Threat for Human Health and Environmental Risks

Periyasamy

2023

Toxics

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The growing worldwide population is directly responsible for the increased production and consumption of textile products. One of the key reasons for the generation of microfibers is the use of textiles and garment materials, which is expected to increase. The textile industry is responsible for the invisible pollution that is created by textile microfibers, which have been detected in marine sediments and organisms. The present review paper demonstrates that the microfibers discharged from functionalized textiles exhibit non-biodegradable characteristics and that a considerable proportion of them possess toxic properties. This is primarily attributed to the impact of textiles’ material functionalization on their biodegradability. The potential for these microfibers, which are released from textiles that contain a variety of dyes, toxic chemicals, and nanomaterials, to pose a variety of health risks to both humans and other living organisms is discussed in this paper. In addition, this paper covers a wide variety of preventative and minimizing measures for reduction, which are discussed in terms of several phases ranging from sustainable production through the consumer, end of life, domestic washing, and wastewater treatment phases.

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“…Coloration (i.e., dyeing or printing) is a part of the textile value chain and it influences to identification and distinguish microfibers and their sources. In colorations, some dyes could penetrate the inside the fiber structure (i.e., reactive dyes [ 161 , 162 ], direct dyes [ 163 ], acid dyes [ 164 ], and natural dyes [ 165 ]) and some of them have physical adsorption on the fiber surface (i.e., pigments [ 166 ] and vat dyes [ 90 , 167 ]). Fibers such as silk and viscose rayon could be lustrous and they influence capturing the image and followed by the image processing.…”

Section: Machine Vision Can Control the Microfiber Releasesmentioning

confidence: 99%

Environmentally Friendly Approach to the Reduction of Microplastics during Domestic Washing: Prospects for Machine Vision in Microplastics Reduction

Periyasamy

2023

Toxics

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The increase in the global population is directly responsible for the acceleration in the production as well as the consumption of textile products. The use of textiles and garment materials is one of the primary reasons for the microfibers generation and it is anticipated to grow increasingly. Textile microfibers have been found in marine sediments and organisms, posing a real threat to the environment as it is invisible pollution caused by the textile industry. To protect against the damaging effects that microplastics can have, the formulation of mitigation strategies is urgently required. Therefore, the primary focus of this review manuscript is on finding an environmentally friendly long-term solution to the problem of microfiber emissions caused by the domestic washing process, as well as gaining an understanding of the various properties of textiles and how they influence this problem. In addition, it discussed the effect that mechanical and chemical finishes have on microfiber emissions and identified research gaps in order to direct future research objectives in the area of chemical finishing processes. In addition to that, it included a variety of preventative and minimizing strategies for reduction. Last but not least, an emphasis was placed on the potential and foreseeable applications of machine vision (i.e., quantification, data storage, and data sharing) to reduce the amount of microfibers emitted by residential washing machines.

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Critical Review on Sustainability in Denim: A Step toward Sustainable Production and Consumption of Denim

Cited by 36 publications

References 143 publications

Small Molecule Optical Probes for Detection of H₂S in Water Samples: A Review

Small Molecule Optical Probes for Detection of H₂S in Water Samples: A Review

Microfiber Emissions from Functionalized Textiles: Potential Threat for Human Health and Environmental Risks

Environmentally Friendly Approach to the Reduction of Microplastics during Domestic Washing: Prospects for Machine Vision in Microplastics Reduction

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Critical Review on Sustainability in Denim: A Step toward Sustainable Production and Consumption of Denim

Cited by 36 publications

References 143 publications

Small Molecule Optical Probes for Detection of H2S in Water Samples: A Review

Small Molecule Optical Probes for Detection of H2S in Water Samples: A Review

Microfiber Emissions from Functionalized Textiles: Potential Threat for Human Health and Environmental Risks

Environmentally Friendly Approach to the Reduction of Microplastics during Domestic Washing: Prospects for Machine Vision in Microplastics Reduction

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Small Molecule Optical Probes for Detection of H₂S in Water Samples: A Review

Small Molecule Optical Probes for Detection of H₂S in Water Samples: A Review