Cited by Human Health Risks from Textile Chemicals: A Critical Review of Recent Evidence (2019-2025)

Human Health Risks from Textile Chemicals: A Critical Review of Recent Evidence (2019-2025) DOI

et al.

Published: April 29, 2025

Global textile production, driven by consumer demand, raises significant concerns about chemical exposures from clothing and related products. This review synthesizes evidence (2019–2025) on hazardous substances in textiles, including dyes, plasticizers, per- polyfluoroalkyl (PFAS), metals, identifies categorizes their associated human health risks. Focusing dermal absorption as the primary exposure route, risks to vulnerable populations (e.g., infants, pregnant women) gaps regulatory frameworks are highlighted. The current analysis reveals that chronic mixtures textiles remains poorly understood, with safety assessments often neglecting synergistic effects. Key findings include elevated phthalates infant clothing, PFAS water-repellent fabrics, carcinogenic aromatic amines azo dyes. We underscore urgency of harmonized global regulations, advanced biomonitoring, sustainable alternatives enzymatic biodegradable finishes). Public awareness initiatives stricter enforcement certifications OEKO-TEX®, GOTS) critical mitigating _Interdisciplinary collaboration among technologists, toxicologists, public experts is essential develop safer integrate health-centric approaches into sustainability agendas, safeguarding consumers, workers, ecosystems._

Language: Английский

Hydrogen Evolution Reaction Mechanism on Pristine and Defective Nickel Phosphate Surfaces DOI

Dyah Puspasari Wijayanti,

Muhammad Arkan Nuruzzahran,

Dzaki Ahmad Syaifullah

et al.

Results in Surfaces and Interfaces, Journal Year: 2025, Volume and Issue: unknown, P. 100431 - 100431

Published: Jan. 1, 2025

Language: Английский

Citations

N‐Doped Holey Graphene/Porous Carbon/Cellulose Nanofibers Electrode and Hydrogel Electrolyte for Low‐temperature Zinc‐ion Hybrid Supercapacitors DOI

Wenhui Tian,

Penggang Ren, Xin Hou

et al.

Small, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 29, 2025

Abstract The susceptibility to freezing of the electrolyte and mismatched cathode make aqueous zinc‐ion hybrid supercapacitors (ZHSCs) have inferior electrochemical performance at low temperature. Herein, a novel freeze‐tolerant hydrogel (CEEZ) matched graphene/porous carbon/cellulose nanofibers (GPCN) are respectively fabricated via chemical cross‐linking two‐step process assemble ZHSCs. prepared electrode has highly porous structure, abundant edge active sites, increased interlayer spacing, which collectively reduces ion transport complexity enhances contact area with electrolyte, promoting rapid ionic conduction pathways. For CEEZ, use ethylene glycol saturated vapor pressure water, thereby enhancing frost resistance electrolyte. Consequently, ZHSCs assembled from GPCN, Zn anode exhibit excellent specific capacitances 1.11 F cm⁻ 2 (21.35 3 ) 20 °C 0.74 (14.23 −20 °C. These results demonstrate promising application potential these in cold environments while maintaining impressive energy storage capabilities. This work provides valuable insights robust strategy for design high‐performance low‐temperature ZHSCs, their practical applicability renewable systems.

Language: Английский

Citations

Human Health Risks from Textile Chemicals: A Critical Review of Recent Evidence (2019-2025) DOI

Joaquim Rovira, Marília Cristina Oliveira Souza, Martí Nadal

et al.

Published: April 15, 2025

Global textile production, driven by consumer demand, raises significant concerns about chemical exposures from clothing and related products. This review synthesizes evidence (2019–2025) on hazardous substances in textiles, including dyes, plasticizers, per- polyfluoroalkyl (PFAS), metals, evaluates their human health risks. Focusing dermal absorption as the primary exposure route, risks to vulnerable populations (e.g., infants, pregnant women) gaps regulatory frameworks are highlighted. The current analysis reveals that chronic mixtures textiles remains poorly understood, with safety assessments often neglecting synergistic effects. Key findings include elevated phthalates infant clothing, PFAS water-repellent fabrics, carcinogenic aromatic amines azo dyes. We underscore urgency of harmonized global regulations, advanced biomonitoring, sustainable alternatives enzymatic biodegradable finishes). Public awareness initiatives stricter enforcement certifications OEKO-TEX®, GOTS) critical mitigating Integrating health-centric approaches into sustainability agendas is imperative for safeguarding consumers ecosystems.

Language: Английский

Citations

Human Health Risks from Textile Chemicals: A Critical Review of Recent Evidence (2019-2025) DOI

Joaquim Rovira, Marília Cristina Oliveira Souza, Martí Nadal

et al.

Published: April 29, 2025

Language: Английский

Citations