Carmen Uribe scite author profile

The application of nanotechnology has gained importance in the finishing of textile products, imparting them functional properties, which are achieved without affecting the textile. A novel method was developed for the in situ growth of CuO nanoparticles (NPs) onto cotton textiles by the exhaust dyeing method. For functionalised textiles, a constant sodium hydroxide concentration (0.4 g l −1 ) and different percentages of on-weight-fabric (% owf) of copper acetate were used. The textiles were microbiologically evaluated, the laundering durability was assessed and their UV protection factor (UPF) was determined. In addition, their CIE L*a*b* colour coordinates and colour strength (K/S) were studied. The results determined that NPs on the textile were CuO and were distributed randomly on the cotton fibre surface. The functionalised textiles with CuO NPs had percentages of bacterial reduction against Escherichia coli (ATCC 25922) between 89.7 and 99.7% and showed an improvement in the UPF of cotton from approximately 7 to 32. The CuO NP content on the textile was inversely correlated with the L* value and directly correlated with the a* and b* values and the K/S parameter.

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Textiles Functionalized with Copper Oxides: A Sustainable Option for Prevention of COVID-19

Román

Villalva

Uribe

et al. 2022

Polymers

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COVID-19 is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and healthcare-associated infections (HAIs) represent severe problems in health centers and public areas. Polyester/cotton (PES/CO) blend fabrics have been functionalized with copper oxides on an industrial scale. For functionalization, the impregnation dyeing technique was applied. The functionalized samples were tested virologically against SARS-CoV-2 and human coronavirus (229E) according to ISO 18184-2019 and microbiologically against Escherichia coli (ATCC 25922) bacteria according to ASTM E2149-2013. The results show that the fabric functionalized with copper oxides inactivated both viruses after 30 min of exposure, presenting excellent virucidal activity against 229E and SARS-CoV-2, respectively. Furthermore, its inactivation efficiency for SARS-CoV-2 was 99.93% and 99.96% in 30 min and 60 min exposure, respectively. The fabric inhibited bacterial growth by more than 99% before and after 10 and 20 washes. In conclusion, 265 m of PES/CO fabric (wide 1.7 m) was functionalized in situ on an industrial scale with copper oxide nanoparticles. The functionalized fabric presented virucidal and bactericidal properties against SARS-CoV-2 and Escherichia coli.

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Contaminación de los ambientes acuáticos generados por la industria textil

Sánchez

Uribe²

2018

Campus

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Reúso en Procesos De Blanqueo Textil De Los Efluentes Provenientes De Tinturas Con Colorantes Reactivos Negros Decolorados Mediante El Método De Fenton

Uribe¹,

Bustos²,

Torres³

et al. 2020

rsqp

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Se reusaron efluentes textiles provenientes de teñidos negros reactivos, decolorados por el método de oxidación avanzada Fenton en procesos de blanqueo de fibra celulósica por agotamiento. Se recolectaron efluentes textiles provenientes de dos teñidos reactivos negros: Corafix Black SD y Corazol Black B 133 %, simulados y reales, para ser decolorados con el tratamiento Fenton. Se monitoreó la decoloración usando espectrofotometría UV-visible, se determinaron las proporciones óptimas de reactivo Fenton (sal de Fe (II) (g)/H2O2 (mL)): 0,0156 g/mL y 0,0251 g/mL con un tiempo de reacción de 90 minutos y pH óptimos de tratamiento de 3,70 y 3,88 para los efluentes textiles provenientes de teñido con colorantes Corafix Black SD y Corazol Black B 133%, respectivamente. Los efluentes tratados se caracterizaron, adecuaron y usaron en el blanqueo de tejidos celulósicos. Se obtuvo textiles con un grado de blancura de 74,73 °Be y 73,41 °Be, similares al sustrato blanqueado con agua blanda (76,61°Berger). Se compararon: las curvas de reflectancia con el espectrofotómetro Datacolor SF550, hidrofilidad y capilaridad según métodos normalizados. Finalmente se concluyó que el tratamiento Fenton es viable para este tipo de efluentes negros reactivos, pues se obtuvieron sustratos blanqueados con propiedades similares al blanqueo con agua blanda.

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Carmen Uribe

Blocking erythemally weighted UV radiation using cotton fabrics functionalized with ZnO nanoparticles in situ

In situ growth of CuO nanoparticles onto cotton textiles

Textiles Functionalized with Copper Oxides: A Sustainable Option for Prevention of COVID-19

Contaminación de los ambientes acuáticos generados por la industria textil

Reúso en Procesos De Blanqueo Textil De Los Efluentes Provenientes De Tinturas Con Colorantes Reactivos Negros Decolorados Mediante El Método De Fenton

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