Plastic & microplastic pollution
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Mitigation Strategies for Microfiber Pollution by Cedillo-González, E.I. (2024). In: Rathinamoorthy R. and Raja Balasaraswathi S. (eds) Microfibre Pollution from Textiles. Research Advances and Mitigation Strategies (First Ed.) by CRC Press. ISBN 9781032364452. DOI: dx.doi.org/10.1201/9781003331995-20
In this chapter, I present an outline of the available strategies for mitigating microfiber contamination. First, efforts have been made to assess the impact of a few washing parameters that affect the discharge of microfibers, with the aim of designing washing programs with minimal discharges. Other endeavors related to washing practices incorporate devices designed to capture microfibers in domestic or industrial washing. Additional techniques for mitigating microfiber contamination incorporate modifications to the composition and structure of standard synthetic fabrics and educational and awareness campaigns. As none of these strategies are 100% efficient in preventing microfiber release, they can be complemented with conventional wastewater treatment plants that can capture microfibers that escape other mitigation strategies. The recuperated microfibers can be reused as raw materials within the building sector or in pyrolysis to generate oil, gas, and char. |
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Are you drowned in microplastic pollution? A brief insight on the current knowledge for early career researchers developing novel remediation strategies by Nohara, N.M.L., Ariza-Tarazona, M.C., Rezende Triboni, E., Nohara, E.L., Villarreal-Chiu, J.F. and Cedillo-González, E.I. Science of the Total Environment, 918 (2024) 170382. DOI: doi.org/10.1016/j.scitotenv.2024.170382
With this open access mini-review my collaborators and I aimed to provide a quick and updated overview of the essential insights of microplastic pollution to early career researchers (ERCs). We wanted to help them acquire the background needed to develop highly innovative physical, chemical, and biological remediation technologies, as well as valorization proposals and environmental education and awareness campaigns. Moreover, we provided recommendations for the development of holistic microplastic pollution remediation strategies that can help them propose technologies considering the environmental, social, and practical dimensions of microplastic pollution while fulfilling the current government policies to manage microplastic waste. |
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Low environmental impact remediation of microplastics: Visible-light photocatalytic degradation of PET microplastics using bio-inspired C,N-TiO2/SiO2 photocatalysts by Ariza-Tarazona, M.C., Siligardi, C, Carreón-López, H.A., Valdéz-Cerda, J.E., Pozzi, P., Kaushik, G., Villarreal-Chiu, J.F. and Cedillo-González, E.I. Marine Pollution Bulletin 193 (2023) 115206. DOI: https://doi.org/10.1016/j.marpolbul.2023.115206
In this publication, derived from the Ph.D. thesis of Dr. Ariza-Tarazona - I was her co-supervisor - reports a novel C,N-TiO2/SiO2 photocatalysts with visible-active properties able to degrade polyethylene terephthalate (PET) microplastics (MPs). The photocatalytic tests were performed in an aqueous medium and at room temperature, evaluating the influence of two pH values (pH 6 and 8). The results demonstrated that the degradation of the PET MPs by C,N-TiO2/SiO2 semiconductors is possible, achieving mass losses between 9.35 and 16.22 %. |
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Solar photocatalytic degradation of polyethylene terephthalate nanoplastics: Evaluation of the applicability of the TiO2/MIL-100(Fe) composite material by Rojas-Guerrero, C.A., Villanueva-Rodríguez, M., Guzmán-Mar, J.L., Hernández-Ramírez, A., Cedillo-González, E.I., Longoria Rodríguez, F.E. and Hinojosa-Reyes, L. Journal of Environmental Chemical Engineering 11 [5] (2023) 110415. DOI: https://doi.org/10.1016/j.jece.2023.110415
In this publication, derived from the Master's project of M.Sc. Rojas-Guerrero, it was investigated the application of mesoporous TiO2/MIL-100(Fe) photocatalysts in the degradation of polyethylene terephthalate nanoplastics (PET NPs) using several reaction conditions. The TiO2/MIL-100(Fe) demonstrated an enhancement of the photocatalytic performance in the PET NPs degradation under simulated solar light. |
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Combining photocatalytic collection and degradation of microplastics using self-asymmetric Pac-Man TiO2 by Chattopadhyay, P., Ariza-Tarazona, M.C., Cedillo-González, E.I., Siligardi, C. and Simmchen, J. Nanoscale 15 (2023) 14774. DOI: 10.1039/d3nr01512b
In this publication, also derived from the Ph.D. thesis of Dr. Ariza-Tarazona, we proposed the use of TiO2-based micromotors as an efficient removal technique for microplastics. The approach was to incorporate different properties (self-propulsion, phoretic assembly of passive colloids and photocatalytic oxidation of contaminants) into a single photocatalytic micromotor. We achieved a highly scalable, inherently-asymmetric Pac-Man TiO2 micromotor with the ability to actively collect and homogeneous polystyrene (PS) microspheres (used as models for microplastics). We cross-correlated the degradation with catalytic activity studies and critically evaluated the timescales required for all involved processes. |
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Towards a Microplastic-Free Ocean: Green Photocatalysis for Mitigation of Micro- and Nanoplastic Marine Pollution by Cedillo-González, E.I. and Siligardi, C (2023). In: Cocca, M., Ambrogi, V., Avolio, R., Castaldo, R., Errico, M.E., Gentile, G. (eds) Proceedings of the 3rd International Conference on Microplastic Pollution in the Mediterranean Sea. ICMPMS 2022. Springer Water. Springer, Cham. DOI: doi.org/10.1007/978-3-031-34455-8_18
In this proceedings paper, we presented the main results of several years of our research focused on the visible light photocatalysis in aqueous medium of polyethylene (PE), polystyrene (PS) and polyethylene terephthalate (PET) microplastics (MPs) and nanoplastics (NPs) using N-TiO2, C,N-TiO2 and C,N-TiO2/SiO2. We investigated the influence of pH, temperature, MPs' and NPs' size and the semiconductor's form (powders or films) on the removal process. Overall, we found that all the variables influenced degradation and photocatalysis can reach in some cases 70% of MPs removal after 50 h of reaction. This information can guide the design of photocatalytic systems that can reduce aquatic MPs pollution. |
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A Practical Valorization Approach for Mitigating Textile Fibrous Microplastics in the Environment: Collection of Textile-Processing Waste Microfibers and Direct Reuse in Green Thermal-Insulating and Mechanical-Performing Composite Construction Materials by Malchiodi, B., Cedillo-González, E.I., Siligardi, C., Pozzi, P. Microplastics 1[3] (2022) 393-405. DOI: doi.org/10.3390/microplastics1030029
Fibrous microplastics (FMPs) are the principal microplastic type in the air and have already been found in human stool and lung tissues. FMPs are generated from the lifecycle of synthetic and blended textiles and are expected to increase due to fast fashion. To limit FMPs spread, this paper suggests, for the first time, the direct collection of blended finishing textile waste microfibers and reuse in designing thermal-insulating and mechanical-performing fiber-reinforced cementitious composites (FRCs). We found that green and performant composite construction materials can be obtained, allowing for the mitigation of more than 4 kg FMPs per ton of cement paste. This is a great result considering the FMP contamination (i.e., 2–8 kg/day fallout in Paris), and that FRCs are promising and shortly-widely used construction materials. |
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Boosting Visible-light photocatalytic degradation of polystyrene nanoplastics with immobilized CuXO obtained by anodization by Acuña-Bedoya, J.D., Luévano-Hipólito, E., Cedillo-González, E.I., Domínguez-Jaimes, L.P., Martínez Hurtado, A., Hernández-López, J.M. Journal of Environmental Chemical Engineering (2021) 106208. DOI: doi.org/10.1016/j.jece.2021.106208
In this study, polystyrene nanoplastics of ~ 350 nm were degraded using immobilized copper oxide semiconductors grown by the anodizing process for the first time. The anodization process promoted the obtaining of immobilized Cu2O/CuO semiconductors with different morphologies and a bandgap between 1.6 and 2 eV. The degradation of the nanoplastics was examined using several analytical methods such as TOC, ATR-FTIR, turbidity, and gas chromatography. The results showed that photocatalysis in visible light with copper oxide semiconductors promotes polymer chain scissions and reduces the concentration of PS-NPs up to 23%, representing six times more than the reductions achieved by photolysis. In addition, mineralization of up to 15% was achieved. |
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Degradation of primary nanoplastics by photocatalysis using different anodized TiO2 structures by Domínguez-Jaimes, L.P., Cedillo-González, E.I., Luévano-Hipólito, E., Acuña-Bedoya, J.D., Hernández-López. Journal of Hazardous Materials 413 (2021) 125452. DOI: doi.org/10.1016/j.jhazmat.2021.125452
This study proposed the use of photocatalysis as an alternative for removing polystyrene nanoparticles (PS-NPs) from aqueous media. A comparative study was carried out to determine the photocatalytic activity of three different TiO2 photocatalysts synthesized by anodization. The statistical analysis revealed that PS-NP elimination using TiO2-nanotubular and TiO2-mixed as photocatalysts was more efficient than with photolysis. The results indicate that a mixed structure (nanotubes/nanograss) reduces the concentration of PS-NPs in dispersion 2 times more efficiently than photolysis with UV light does. |
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The Role of the Reactive Species Involved in the Photocatalytic Degradation of HDPE Microplastics Using C,N-TiO2 Powders by Vital-Grappin, A.D., Ariza-Tarazona, M.C., Luna-Hernández, V.M., Villarreal-Chiu, J.M., Hernández-López, J.M., Siligardi, C., Cedillo-González, E.I. Polymers 13 [7] (2021) 999. DOI: doi.org/10.3390/polym13070999
To eliminate microplastic (MPs) pollution in an environmentally friendly process, photocatalysis can easily be implemented in wastewater treatment plants (WWTPs). As photocatalysis involves the formation of reactive species such as holes, electrons, hydroxyl, and superoxide ion radicals, it is imperative to determine the role of those species in the microplastic degradation process to design an effective photocatalytic system. Therefore, we present such reactive species’ role in the degradation of polyethylene (PE) MPs using C,N-TiO2. Tert-butanol, isopropyl alcohol (IPA), Tiron, and Cu(NO3)2 were used as scavengers. These results revealed for the first time that the formation of free hydroxyl radicals through the pathways involving the photogenerated electron plays an essential role in the MPs’ degradation. |
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First insights into photocatalytic degradation of HDPE and LDPE microplastic by a mesoporous N-TiO2 coating: Effect of Size and Shape of Microplastics by Llorente-García, B.E., Hernández-López, J.M., Zaldívar-Cadena, A.A., Siligardi, C., Cedillo-González, E.I. Coatings 10 [7] (2020) 658. DOI: doi.org/10.3390/coatings10070658
In this work, derived from the Master's thesis of M.Sc. Llorente-García (I was her supervisor), visible-light photocatalysis of high-density polyethylene (HDPE) and low-density polyethylene (LDPE) microplastics (MPs) in aqueous medium using a mesoporous N–TiO2 coating was investigated. For each plastic, two different sizes were tested. Our results revealed that the photocatalytic degradation of MPs using an N–TiO2 coating was affected by the size and shape of the MPs. Smaller MPs led to higher degradation, while film-shaped MPs led to lower degradation that was related to a poorly illuminated and oxygenated reaction medium. These results set the basis for further investigation on the on the design of more effective photocatalytic-reaction systems for decreasing MP inputs to the environment. |
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Microplastic pollution remediation by a carbon and nitrogen-doped TiO2: Effect of pH and temperature in the photocatalytic degradation process by Ariza-Tarazona, M.C., Villareal-Chiu, J.F, Hernández-López, J.M., Rivera de la Rosa, J., Barbieri, V., Siligardi, C., Cedillo-González, E.I. Journal of Hazardous Materials 395 (2020) 122632. DOI: doi.org/10.1016/j.jhazmat.2020.122632
An essential issue of microplastics (MPs) is their disposal. Due to their size, the disposal methods commonly used for plastic items are not suited for MPs. Here, photocatalysis in an aqueous medium was proposed as an alternative to fight MPs pollution. Although the photocatalysis of MPs has been reported, the effect of operating variables in the process has not been investigated. To fill this gap, the impact of pH and temperature on the degradation process of HDPE MPs was investigated using C,N-TiO2 and visible light. We found that photocatalysis at low temperature (0 °C) increases MPs’ surface area by fragmentation, and low pH value (pH 3) favours hydroperoxide formation during photooxidation. By using the design of experiments tool, it was demonstrated that there is a combined effect of pH and temperature in the photocatalysis of HDPE MPs. This work was derived from the Master's project of Dr. Ariza-Tarazona. |
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New strategy for microplastic degradation: Green photocatalysis using a protein-based porous N-TiO2 semiconductor by Ariza-Tarazona, M.C., Villareal-Chiu, J.F, Barbieri, V., Siligardi, C., Cedillo-González, E.I. Ceramics International 45 (2019) 9618. DOI: doi.org/10.1016/j.ceramint.2018.10.208
This was the first publication regarding photocatalysis of microplastics, available online since October 2018. Here we proposed for the first time to mitigate the oceanic microplastic pollution by rducinge inputs from inland using photocatalysis. In this sense, we present the first report on the use of photocatalysis for the degradation of HDPE microplastics extracted from a commercially available facial scrub. This was achieved by using two proposed semiconductors based on N-TiO2. One was green synthesized using the extrapallial fluid of fresh blue mussels, which presented an excellent capacity to promote photocatalytic degradation in solid and aqueous environments; while the second photocatalyst, obtained from a conventional sol-gel synthesis, presented good capacity to promote mass loss of the as-extracted microplastics in an aqueous environment. Our results showed that environmental conditions, microplastics/N-TiO2 interaction and the N-TiO2 surface area should be carefully set and monitored in order of avoiding the arrest of photocatalysis. |
Solar reflective materials
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Highly reflective engobes for ink-jet printed coloured porcelain stoneware tiles by Cedillo-González, E.I., Governatori, M. and Siligardi, C. Ceramics International 49 [14] (2023) 24259. DOI: https://doi.org/10.1016/j.ceramint.2022.12.150
Within traditional ceramic industry, ink-jet decoration is a technology suitable for designing ceramic tiles with solar reflectance (SR) properties able to mitigate the Urban Heat Island (UHI) phenomenon. Even if many efforts have been conducted to develop solar reflective surfaces, little research has been conducted for the development of coloured tiles suitable to be fabricated by ink-jet technology, where the inks tend to counteract the effect of the reflective engobes. To overcome such an issue, in this publication, the fabrication of solar reflective ink-jet decorated coloured tiles (also known as cool colors) using a reflective engobe was investigated. Overall, it was found that using high engobe thicknesses, white porcelain stoneware supports, and light colour inks allows the fabrication of cool color ink-jet printed tiles. |
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Solar reflective properties of porcelain tiles for UHI mitigation: effect of highly reflective frits in the engobe's formulation by Governatori, M., Cedillo-González, E.I., Manfredini, T., Siligardi, C. Materials Today Sustainability 20 (2022) 100255. DOI: doi.org/10.1016/j.mtsust.2022.100255
This study investigated the obtaining of solar reflective ceramic tiles through the modification of the engobe's formulation by incorporating a glass-ceramic frit with high solar reflectance (SR) property into its formulation. To verify whether the modified engobe can be used to prepare solar reflective cool color tiles, these were decorated in quadrichromy by ink-jet printing. The results suggested that when a glass-ceramic frit with a high intrinsic SR value is incorporated into the formulation of an industrial engobe, it can raise its SR value, however, the productive process used to obtain ceramic tiles limits the SR values due to crystallization. It was also found that ink-jet decoration negatively affects the SR of the tiles prepared with the new engobe due to its coverage by the inks and their mineralogical composition. |
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Solar reflective ink-jet printed porcelain stoneware tiles as an alternative for Urban Heat Island mitigation by Cedillo-González, E.I., Governatori, M., Ferrari, C., Siligardi, C. Journal of the European Ceramic Society 42 [2] (2022) 707. DOI: doi.org/10.1016/j.jeurceramsoc.2021.10.045
Digital ink-jet printing is a decoration system for ceramic tiles that requires the application of engobes with high whiteness and opacity, characteristics that can be used to design solar reflective ink-jet decorated tiles. Here, the fabrication of ink-jet printed solar reflective tiles using an engobe with high solar reflectance was investigated. It was found that some of the prepared tiles can be used for mitigating the Urban Heat Island phenomenon. The solar reflective properties were mainly derived from the reflective engobe, and in some grade, from the mineral composition of the inks. |
Publications in other topics
Cedillo-González, E.I., Chierici, P., Butazzo, M., Siligardi, C., Blasi, E., Ardizzoni, A. Correlating the physico-chemical properties of two conventional glazed porcelain stoneware tiles in relation to cleanability and sanitization. Materials Today Communications 34 (2023) 105191. https://doi.org/10.1016/j.mtcomm.2022.105191
Vacchi, M., Siligardi, C., Cedillo-González, E.I., Ferrari, A.M., Settembre-Blundo, D. Industry 4.0 and Smart Data as Enablers of the Circular Economy in Manufacturing: Product Re-Engineering with Circular Eco-Design. Sustainability 2021, 13(18), 10366. https://doi.org/10.3390/su131810366
Vacchi, M., Siligardi, C., Demaria, F., Cedillo-González, E.I., González-Sánchez, R., Settembre-Blundo, D. Technological Sustainability or Sustainable Technology? A Multidimensional Vision of Sustainability in Manufacturing. Sustainability 2021, 13(17), 9942. https://doi.org/10.3390/su13179942
Cedillo-González, E.I., Hernández-López, J.M., Ruiz-Valdés, J.J., Barbieri, V., Siligardi, C., Self-cleaning TiO2 coatings for building materials: The influence of morphology and humidity in the stain removal performance. Construction and Building Materials 237 (2020) 117692.
https://doi.org/10.1016/j.conbuildmat.2019.117692
Cedillo-González, E.I., Ruiz-Valdés, J.J., Álvarez-Méndez, A., Siligardi, C., Lancellotti, I. Metallurgical waste valorisation for fabricating glass-ceramics materials. Environmental Engineering and Managemente Journal 19 [3] (2020) 401. https://bit.ly/3Znu8Zd
Domínguez-Jaimes, L.P., Arenas Vara, M.A., Cedillo-González, E.I., Ruiz Valdés, J.J., De Damborenea, J.J., Conde Del Campo, A., Rodríguez-Varela, F.J., Alonso-Lemus, I.L., Hernández-López, J.M. Corrosion Resistance of Anodic Layers Grown on 304L Stainless Steel at Different Anodizing Times and Stirring Speeds. Coatings 2019, 9(11), 706. https://doi.org/10.3390/coatings9110706
Guzman-Valdivia, C.G., Carrera Escobedo, J.L., Blanco Ortega, A., Celaya Padilla, J., Gomez Becerra, F.A., Cedillo González, E.I. Writing effective engineering research papers: A brief guide for new writers. DYNA 94 [3] (2019) 262. https://doi.org/10.6036/8912
Cedillo-González, E.I., Riccò, R., Costacurta, S., Siligardi, C., Falcaro, P. Below room temperature: How the photocatalytic activity of dense and mesoporous TiO2 coatings is affected. Applied Surface Science 435 (2018) 769. https://doi.org/10.1016/j.apsusc.2017.11.078
Cedillo-González, E.I., Barbieri, V., Falcaro, P., Torres-Martínez, L.M., Juárez-Ramírez, I., Villanova, L., Montecchi, M., Pasquali, L., Siligardi, C., Influence of domestic and environmental weathering in the self-cleaning performance and durability of TiO2 photocatalytic coatings, Building and Environment 132 (2018) 96. https://doi.org/10.1016/j.buildenv.2018.01.028
Signorini, C., Nobili, A., Cedillo-González, E.I., Siligardi, C. Silica coating for interphase bond enhacement of carbon and AR-glass Textile Reinforced Mortar (TRM), Composites Part B 141 (2018) 191. https://doi.org/10.1016/j.compositesb.2017.12.045
Pini, M.; Cedillo-González, E.I., Neri, P., Siligardi, C.; Ferrari, A.M., Assessment of environmental performance of TiO2 nanoparticles coated self-cleaning float glass. Coatings 7 [1] (2017) 8. https://doi.org/10.3390/coatings7010008
Cedillo-González, E.I., Mugoni, C., Montorsi, M., Siligardi, C. Evaluation of the correlations between temperature, humidity, incident UV light and the photocatalytic activity of TiO2 films using a rationale approach. Applied Surface Science 378 (2016) 73. https://doi.org/10.1016/j.apsusc.2016.03.202
Cedillo-González, E.I., Riccò, R., Montorsi, M., Montorsi, M., Falcaro, P., Siligardi, C. Self-cleaning glass prepared from a commercial TiO2 nano-dispersion and its photocatalytic performance under common antrophogenic and atmospheric factors. Building and Environment 71 (2014) 7. https://doi.org/10.1016/j.buildenv.2013.09.007
Gasparini, E., Tarantino, S.C., Ghigna, P., Riccardi, M.P., Cedillo-González, E.I., Siligardi, C., Zema, M. Thermal dehydroxylation of kaolinite under isothermal conditions. Applied Clay Sciences 80-81 (2013) 417. https://doi.org/10.1016/j.clay.2013.07.017
Cedillo-González, E.I., Montorsi, M., Mugini, M., Montorsi, M., Siligardi, C. Improvement of the adhesion between TiO2 nanofilm and glass substrate by roughness modifications. Physics Procedia 40 (2013) 19. https://doi.org/10.1016/j.phpro.2012.12.003
Pini M., Cedillo-González, E.I., Neri, P., Siligardi, C., Ferrari, M. Life Cycle Assessment of nanoTiO2 coated self-cleaning float glass. Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI – Nanotech 3 (2013) 728.
Cedillo González, E.I., Ruiz Valdés, J.J., Álvarez Méndez, A. Kinetics study on controlled crystallization of a Ca2ZnSi2O7 phase in materials obtained from vitrification of metallurgical slag and recycled soda lime glass. Advances in Science and Technology 68 (2010) 114.
https://doi.org/10.4028/www.scientific.net/AST.68.114
Preprints
Low Environmental Impact Remediation of Microplastics: Visible-Light Photocatalytic Degradation of PET Microplastics Using Bio-Inspired C,N-TiO2/SiO2 Photocatalysts. Ariza-Tarazona, M.C., Siligardi, C., Carreón-López, H.A., Valdéz-Cerda, J.E., Pozzi, P., Kaushik, G., Villarreal-Chiu, J.F., Cedillo-González, E.I. Preprint, ErathArXiv. DOI: https://doi.org/10.31223/X5XH2Q
Design of green TiO2-based semiconductors for microplastic and nanoplastic photocatalytic degradation. Vital-Grappin, A.D., Ariza-Tarazona, M.C., Sandoval, I., Rojas-Guerrero, C.A., Villarreal-Chiu, J.F., Cedillo-González, E.I. Preprints.org. DOI: 10.20944/preprints202301.0544.v1.
Cedillo-González, E.I., Chierici, P., Butazzo, M., Siligardi, C., Blasi, E., Ardizzoni, A. Correlating the physico-chemical properties of two conventional glazed porcelain stoneware tiles in relation to cleanability and sanitization. Materials Today Communications 34 (2023) 105191. https://doi.org/10.1016/j.mtcomm.2022.105191
Vacchi, M., Siligardi, C., Cedillo-González, E.I., Ferrari, A.M., Settembre-Blundo, D. Industry 4.0 and Smart Data as Enablers of the Circular Economy in Manufacturing: Product Re-Engineering with Circular Eco-Design. Sustainability 2021, 13(18), 10366. https://doi.org/10.3390/su131810366
Vacchi, M., Siligardi, C., Demaria, F., Cedillo-González, E.I., González-Sánchez, R., Settembre-Blundo, D. Technological Sustainability or Sustainable Technology? A Multidimensional Vision of Sustainability in Manufacturing. Sustainability 2021, 13(17), 9942. https://doi.org/10.3390/su13179942
Cedillo-González, E.I., Hernández-López, J.M., Ruiz-Valdés, J.J., Barbieri, V., Siligardi, C., Self-cleaning TiO2 coatings for building materials: The influence of morphology and humidity in the stain removal performance. Construction and Building Materials 237 (2020) 117692.
https://doi.org/10.1016/j.conbuildmat.2019.117692
Cedillo-González, E.I., Ruiz-Valdés, J.J., Álvarez-Méndez, A., Siligardi, C., Lancellotti, I. Metallurgical waste valorisation for fabricating glass-ceramics materials. Environmental Engineering and Managemente Journal 19 [3] (2020) 401. https://bit.ly/3Znu8Zd
Domínguez-Jaimes, L.P., Arenas Vara, M.A., Cedillo-González, E.I., Ruiz Valdés, J.J., De Damborenea, J.J., Conde Del Campo, A., Rodríguez-Varela, F.J., Alonso-Lemus, I.L., Hernández-López, J.M. Corrosion Resistance of Anodic Layers Grown on 304L Stainless Steel at Different Anodizing Times and Stirring Speeds. Coatings 2019, 9(11), 706. https://doi.org/10.3390/coatings9110706
Guzman-Valdivia, C.G., Carrera Escobedo, J.L., Blanco Ortega, A., Celaya Padilla, J., Gomez Becerra, F.A., Cedillo González, E.I. Writing effective engineering research papers: A brief guide for new writers. DYNA 94 [3] (2019) 262. https://doi.org/10.6036/8912
Cedillo-González, E.I., Riccò, R., Costacurta, S., Siligardi, C., Falcaro, P. Below room temperature: How the photocatalytic activity of dense and mesoporous TiO2 coatings is affected. Applied Surface Science 435 (2018) 769. https://doi.org/10.1016/j.apsusc.2017.11.078
Cedillo-González, E.I., Barbieri, V., Falcaro, P., Torres-Martínez, L.M., Juárez-Ramírez, I., Villanova, L., Montecchi, M., Pasquali, L., Siligardi, C., Influence of domestic and environmental weathering in the self-cleaning performance and durability of TiO2 photocatalytic coatings, Building and Environment 132 (2018) 96. https://doi.org/10.1016/j.buildenv.2018.01.028
Signorini, C., Nobili, A., Cedillo-González, E.I., Siligardi, C. Silica coating for interphase bond enhacement of carbon and AR-glass Textile Reinforced Mortar (TRM), Composites Part B 141 (2018) 191. https://doi.org/10.1016/j.compositesb.2017.12.045
Pini, M.; Cedillo-González, E.I., Neri, P., Siligardi, C.; Ferrari, A.M., Assessment of environmental performance of TiO2 nanoparticles coated self-cleaning float glass. Coatings 7 [1] (2017) 8. https://doi.org/10.3390/coatings7010008
Cedillo-González, E.I., Mugoni, C., Montorsi, M., Siligardi, C. Evaluation of the correlations between temperature, humidity, incident UV light and the photocatalytic activity of TiO2 films using a rationale approach. Applied Surface Science 378 (2016) 73. https://doi.org/10.1016/j.apsusc.2016.03.202
Cedillo-González, E.I., Riccò, R., Montorsi, M., Montorsi, M., Falcaro, P., Siligardi, C. Self-cleaning glass prepared from a commercial TiO2 nano-dispersion and its photocatalytic performance under common antrophogenic and atmospheric factors. Building and Environment 71 (2014) 7. https://doi.org/10.1016/j.buildenv.2013.09.007
Gasparini, E., Tarantino, S.C., Ghigna, P., Riccardi, M.P., Cedillo-González, E.I., Siligardi, C., Zema, M. Thermal dehydroxylation of kaolinite under isothermal conditions. Applied Clay Sciences 80-81 (2013) 417. https://doi.org/10.1016/j.clay.2013.07.017
Cedillo-González, E.I., Montorsi, M., Mugini, M., Montorsi, M., Siligardi, C. Improvement of the adhesion between TiO2 nanofilm and glass substrate by roughness modifications. Physics Procedia 40 (2013) 19. https://doi.org/10.1016/j.phpro.2012.12.003
Pini M., Cedillo-González, E.I., Neri, P., Siligardi, C., Ferrari, M. Life Cycle Assessment of nanoTiO2 coated self-cleaning float glass. Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI – Nanotech 3 (2013) 728.
Cedillo González, E.I., Ruiz Valdés, J.J., Álvarez Méndez, A. Kinetics study on controlled crystallization of a Ca2ZnSi2O7 phase in materials obtained from vitrification of metallurgical slag and recycled soda lime glass. Advances in Science and Technology 68 (2010) 114.
https://doi.org/10.4028/www.scientific.net/AST.68.114
Preprints
Low Environmental Impact Remediation of Microplastics: Visible-Light Photocatalytic Degradation of PET Microplastics Using Bio-Inspired C,N-TiO2/SiO2 Photocatalysts. Ariza-Tarazona, M.C., Siligardi, C., Carreón-López, H.A., Valdéz-Cerda, J.E., Pozzi, P., Kaushik, G., Villarreal-Chiu, J.F., Cedillo-González, E.I. Preprint, ErathArXiv. DOI: https://doi.org/10.31223/X5XH2Q
Design of green TiO2-based semiconductors for microplastic and nanoplastic photocatalytic degradation. Vital-Grappin, A.D., Ariza-Tarazona, M.C., Sandoval, I., Rojas-Guerrero, C.A., Villarreal-Chiu, J.F., Cedillo-González, E.I. Preprints.org. DOI: 10.20944/preprints202301.0544.v1.
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