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Carlos Alfonso Sierra García (2023)
La fotocatálisis heterogénea es esencial para la degradación exitosa de contaminantes orgánicos en medios líquidos. Este proceso de oxidación avanzada se ha convertido en uno de los más interesantes para el tratamiento de aguas residuales, que contienen compuestos orgánicos nocivos para el medio ambiente, como los colorantes. En este trabajo se evaluó la actividad fotocatalítica de zeolita MCM-22 pilareada con SiO2/TiO2 (también conocida como MCM-36) para la degradación de azul ácido 113, un colorante diazoico utilizado frecuentemente en la industria textil. Las zeolitas MCM-22 se sintetizaron mediante el método hidrotermal, sujetas al proceso de pilareado de SiO2/TiO2 en diferentes relaciones molares modificado con la asistencia de isopropanol junto a una impregnación húmeda de MnO2 (1 y 2%). Se confirmaron las estructuras mesoporosas de las zeolitas mediante los análisis de difracción de rayos X y fisisorción de N2. Los resultados de espectroscopía UV-Vis de reflectancia difusa indicaron la presencia de especies de óxidos de Ti y Mn. En microscopía electrónica de barrido las muestras se observaron de manera panorámica las muestras, mientras que en microscopia electrónica de transmisión se observó la dispersión de las nanopartículas de TiO2, donde se logró ver la distancia interplanar de estas identificando el plano (100) característico de la fase anatasa, así como la estructura laminar y mesoporosa de la MCM-22. Las cantidades de Ti y Mn introducidas a las muestras se obtuvieron mediante el análisis ICP-OES (espectrometría de emisión óptica de plasma de acoplamiento inductivo). Los resultados de degradación fotocatalítica mostraron que el fotocatalizador más activo fue MCM-36 0:1 consiguiendo un 79.64%, seguido del MCM-36 1:10 (42.70%), 1:5 (34.83%) y 1:3 (25.99%). Se observó que la actividad del TiO2 puede ser inhibida por la adición de MnO2, que envenena el catalizador, posiblemente dando lugar a la formación de una heterounión entre el TiO2 y MnO2, formando centros que aceleran la fotorecombinación.
Heterogeneous photocatalysis is essential for the successful degradation of organic contaminants in liquid media. This advanced oxidation process has become one of the most interesting for the treatment of wastewater containing organic compounds harmful to the environment, such as dyes. In this work, the photocatalytic activity of zeolite MCM-22 pillared with SiO2/TiO2 (also known as MCM36) was evaluated for the degradation of acid blue 113, a diazo dye frequently used in the textile industry. MCM-22 zeolites were synthesized by the hydrothermal method, using the SiO2/TiO2 pillaring process in different molar ratios, modified with the assistance of isopropanol together with a wet impregnation of MnO2 (1 and 2 %). The mesoporous structures of the zeolites were confirmed by Xray diffraction and N2 physisorption analyses. Diffuse reflectance UV-Vis spectroscopy results indicated the presence of Ti and Mn oxide species. With scanning electron microscopy, the samples were observed panoramically, while with transmission electron microscopy the dispersion of TiO2 nanoparticles was observed, where it was possible to see their interplanar distance, identifying the (100) plane, characteristic of the anatase phase, as well as the lamellar and mesoporous structure of MCM-22. The amounts of Ti and Mn introduced to the samples were obtained by ICP-OES (Inductively coupled plasma atomic emission spectroscopy) analysis. The photocatalytic degradation results showed that the most active photocatalyst was MCM-36 0:1 achieving 79.64%, followed by MCM-36 1:10 (42.70%), 1:5 (34.83%) and 1:3 (25.99%). It was observed that the activity of TiO2 can be inhibited by the addition of MnO2, which poisons the catalyst, leading to the formation of a heterojunction between TiO2 and MnO2, forming centers that accelerate photorecombination.
Master thesis
MCM-22, zeolita, fotocatálisis, TiO2, azul ácido 113 MCM-22, zeolite, photocatalysis, TiO2, acid blue 113 INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS OTRAS ESPECIALIDADES TECNOLÓGICAS OTRAS OTRAS
SERGIO GARCIA LAYNES VIRGINIA AURORA HERRERA VALENCIA Lilia Guadalupe Tamayo Torres VERONICA LIMONES BRIONES FELIPE ALONSO BARREDO POOL FRAY MARTIN BAAS ESPINOLA Ángel Gabriel Alpuche Solís CARLOS ALBERTO PUCH HAU SANTY PERAZA ECHEVERRIA (2022)
"WRKY transcription factors (TFs) play key roles in plant defense responses through phytohormone signaling pathways. However, their functions in tropical fruit crops, especially in banana, remain largely unknown. Several WRKY genes from the model plants rice (OsWRKY45) and Arabidopsis (AtWRKY18, AtWRKY60, AtWRKY70) have shown to be attractive TFs for engineering disease resistance. In this study, we isolated four banana cDNAs (MaWRKY18, MaWRKY45, MaWRKY60, and MaWRKY70) with homology to these rice and Arabidopsis WRKY genes. The MaWRKY cDNAs were isolated from the wild banana Musa acuminata ssp. malaccensis, which is resistant to several diseases of this crop and is a progenitor of most banana cultivars. The deduced amino acid sequences of the four MaWRKY cDNAs revealed the presence of the conserved WRKY domain of ~60 amino acids and a zinc-finger motif at the N-terminus. Based on the number of WRKY repeats and the structure of the zinc-finger motif, MaWRKY18 and MaWRKY60 belong to group II of WRKY TFs, while MaWRKY45 and MaWRKY70 are members of group III. Their corresponding proteins were located in the nuclei of onion epidermal cells and were shown to be functional TFs in yeast cells. Moreover, expression analyses revealed that the majority of these MaWRKY genes were upregulated by salicylic acid (SA) or methyl jasmonate (MeJA) phytohormones, although the expression levels were relatively higher with MeJA treatment. The fact that most of these banana WRKY genes were upregulated by SA or MeJA, which are involved in systemic acquired resistance (SAR) or induced systemic resistance (ISR), respectively, make them interesting candidates for bioengineering broad-spectrum resistance in this crop."
Article
Banana Transcription factor WRKY Defense phytohormones Salicylic acid Methyl jasmonate SAR ISR Broad-spectrum resistance BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA GENÉTICA GENÉTICA
Kiran Sharma Pooja Bhatnagar-Mathur (2023)
Article
Host-Induced Gene Silencing CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA AFLATOXINS ARACHIS HYPOGAEA ASPERGILLUS FLAVUS FATTY ACIDS GROUNDNUTS PROTEOMICS
XIANGYUE LI LIU LUIS EMILIO RENDON DIAZ MIRON (2009)
El biodeterioro que se presenta en los sistemas de drenaje de concreto se define como el estropicio causado a la infraestructura de ese material por la actividad microbiana y los productos del metabolismo microbiológicos, principalmente ácido sulfúrico, por lo que también es conocida como corrosión ácida. En Canadá y la parte norte de Estados Unidos, este tipo de fallas en los sistemas de drenaje por corrosión-ácida no son tan frecuentes. Ciudades como Boston, Edmonton, Montreal y Nueva York han reportado (al menos en los diarios o en la literatura comercial) varios casos de corrosión en concreto. Sin embargo, en la parte sur de los Estados Unidos, el rápido deterioro de la infraestructura para el manejo de agua residual está causando problemas serios y caros de resolver. En la frontera México-americana, con una población combinada de más de 15 millones de habitantes, la problemática es particularmente alarmante. En este trabajo se expone el diagnóstico de este tipo de biodeterioro del concreto en la ciudad de Reynosa, Tamaulipas, México, y se dan algunas recomendaciones para mitigarlo, siendo la más importante la de revisar la norma mexicana de cemento tipo portland (ONNCCE, 2004), que no toma en consideración la variable “biodeterioro del concreto” ni su mecanismo.
Article
Biodeterioro del concreto Ácidos sulfúricos Corrosión Infraestructura hidroagrícola INGENIERÍA Y TECNOLOGÍA
Wenfei Tian Maria Itria Ibba Govindan Velu Shuanghe Cao Zhonghu He (2024)
Article
CIMMYT Germplasm CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA GERMPLASM FERULIC ACID FUNCTIONAL FOODS PHYTOCHEMICALS YIELD POTENTIAL WHEAT FOOD PRODUCTION
MARTHA AVILES FLORES (2012)
Se desarrolló y validó una metodología para la cuantificación de ácido clofíbricoderivatizado con trimetilsilildiazometano en muestras de agua por cromatografía de gases acoplada a un detector selectivo de masas (CG-MS). El método se validó en diferentes parámetros como linealidad, exactitud, precisión, límites de detección y cuantificación. Las concentraciones de validación se encuentran en el intervalo de 0.0025 a 0.1644 μgL-1. Los límites de detección y cuantificación obtenidos son 0.0003 y 0.0053 μgL-1.
Article
Contaminación del agua Industria farmacéutica Ácido clofíbrico INGENIERÍA Y TECNOLOGÍA
Estimating lime requirements for tropical soils: Model comparison and development
Fernando Aramburu Merlos João Vasco Silva Frédéric Baudron Robert Hijmans (2023)
Acid tropical soils may become more productive when treated with agricultural lime, but optimal lime rates have yet to be determined in many tropical regions. In these regions, lime rates can be estimated with lime requirement models based on widely available soil data. We reviewed seven of these models and introduced a new model (LiTAS). We evaluated the models’ ability to predict the amount of lime needed to reach a target change in soil chemical properties with data from four soil incubation studies covering 31 soil types. Two foundational models, one targeting acidity saturation and the other targeting base saturation, were more accurate than the five models that were derived from them, while the LiTAS model was the most accurate. The models were used to estimate lime requirements for 303 African soil samples. We found large differences in the estimated lime rates depending on the target soil chemical property of the model. Therefore, an important first step in formulating liming recommendations is to clearly identify the soil property of interest and the target value that needs to be reached. While the LiTAS model can be useful for strategic research, more information on acidity-related problems other than aluminum toxicity is needed to comprehensively assess the benefits of liming.
Article
Exchangeable Acidity Aluminum Saturation Calcium Carbonate Equivalent CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CHEMICOPHYSICAL PROPERTIES LIMES TROPICAL ZONES ACID SOILS ALUMINIUM BASE SATURATION CALCIUM CARBONATE
Aaron Azael Lopez Cano VERONICA MARTINEZ AGUILAR Mariana Peña-Juárez Ricardo López Esparza Enrique Delgado Alvarado Emmanuel Gutierrez MAYRA DEL ANGEL MONROY Elias Perez Agustin L. Herrera-May JOSE AMIR GONZALEZ CALDERON (2023)
We explored the potential of different nanoparticles (TiO2, CaCO3, and Al2O3), considering their pure form and modified with cinnamon essential oil (CEO). These materials were characterized using various techniques, including FTIR spectroscopy, XRD analysis, TGA, and SEM. The interaction between CEO and nanoparticles changed depending on the nanoparticle type. Al2O3 nanoparticles exhibited the strongest interaction with CEO, increasing their antioxidant capacity by around 40% and their transfer of antimicrobial properties, particularly against Gram-negative bacteria. In contrast, TiO2 and CaCO3 nanoparticles showed limited interaction with CEO, resulting in lower antioxidant capacity and antimicrobial activity. Incorporating pure and CEO-modified nanoparticles into polylactic acid (PLA) films improved their mechanical and thermal properties, which are suitable for applications requiring greater strength. This research highlights the potential of metal oxide nanoparticles to enhance the antimicrobial and antioxidant capabilities of polymers. In addition, incorporating cinnamon essential oil can increase the antioxidant and antimicrobial effectiveness of the metal oxide nanoparticles and improve the mechanical and thermal properties of PLA films. Thus, these PLA films exhibit favorable characteristics for active packaging applications.
Author contributions: conceptualization, V.M.-A. and J.A.G.-C.; formal analysis, A.A.L.-C., V.M.-A., M.G.P.-J. and M.D.A.-M.; funding acquisition, A.L.H.-M.; methodology, A.A.L.-C. and V.M.-A.; investigation, E.P.; supervision, R.L.-E., E.D.-A., and E.J.G.-C.; validation, A.L.H.-M. and J.A.G.-C.; writing—original draft, V.M.-A.; writing—review and editing, M.G.P.-J. and J.A.G.-C. All authors have read and agreed to the published version of the manuscript.
Funding: J.A. Gonzalez-Calderon thanks CONAHCYT for supporting the Catedras-CONAHCYT Program, and Verónica Martinez thanks CONAHCYT for the Doctoral Fellowship. The authors also want to thank CONAHCYT for funding the project CF2019 265239 “Ciencia de Frontera”, which made this work possible.
Institutional review board statement: Not applicable.
Informed consent statement: Not applicable.
Data availability statement: Data is contained within the article.
Acknowledgments: The authors acknowledge Claudia Hernández and Rosa Lina Tovar for their support during the XRD and SEM analyses.
Conflicts of interest: The authors declare no conflict of interest.
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Article
Cinnamon essential oil Antioxidant activity Antimicrobial properties Nanoparticles Polylactic acid films INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS OTRAS ESPECIALIDADES TECNOLÓGICAS OTRAS OTRAS
Hugo Albeiro Saldarriaga Noreña MARIO ALFONSO MURILLO TOVAR JOSEFINA VERGARA SANCHEZ JEANNETE RAMIREZ APARICIO Lorena Magallón Cacho MARIA LUISA GARCIA BETANCOURT (2023)
Wastewater-containing dyes are an environmental problem. The prime source of dye pollutants is the textile industry, such as paper manufacturing, food processing, leather, pigments, etc. Dye removal from wastewater using nanotechnology has received attention in recent decades thanks to efficient nanomaterials improving traditional technologies. In recent years, multiple research reports on carbon nanotubes for dye removal and photocatalytic dye degradation provided substantial insight into the comprehension of nanotechnology and remediation. This work presents a review and bibliometric analysis of carbon nanotubes for dye removal and photocatalytic dye degradation, which have an environmental impact today. The bibliometric study showed that the current research tendency on carbon nanotubes applied in dye removal and photocatalysis is still growing. According to research, this work observed that carbon nanotubes for dye removal exhibit high removal and efficient photocatalysis activity, indicating the functionality of nanotechnology for environmental remediation. The analysis of the parameters involved in the removal studies, such as temperature and pH, showed adsorption behavior. The photodegradation of methylene blue demonstrated the photocatalytic activity of carbon nanotubes attributed to the sp2 lattice of graphitic configuration.
Article
BIOLOGÍA Y QUÍMICA QUÍMICA adsorption; carbon nanotubes; methylene blue; photocatalysis; photodegradation of methylene blue
SERGIO GARCIA LAYNES VIRGINIA AURORA HERRERA VALENCIA Lilia Guadalupe Tamayo Torres VERONICA LIMONES BRIONES FELIPE ALONSO BARREDO POOL FRAY MARTIN BAAS ESPINOLA Angel Alpuche-Solis CARLOS ALBERTO PUCH HAU SANTY PERAZA ECHEVERRIA (2022)
WRKY transcription factors (TFs) play key roles in plant defense responses through phytohormone signaling pathways. However, their functions in tropical fruit crops, especially in banana, remain largely unknown. Several WRKY genes from the model plants rice (OsWRKY45) and Arabidopsis (AtWRKY18, AtWRKY60, AtWRKY70) have shown to be attractive TFs for engineering disease resistance. In this study, we isolated four banana cDNAs (MaWRKY18, MaWRKY45, MaWRKY60, and MaWRKY70) with homology to these rice and Arabidopsis WRKY genes. The MaWRKY cDNAs were isolated from the wild banana Musa acuminata ssp. malaccensis, which is resistant to several diseases of this crop and is a progenitor of most banana cultivars. The deduced amino acid sequences of the four MaWRKY cDNAs revealed the presence of the conserved WRKY domain of ~60 amino acids and a zinc-finger motif at the N-terminus. Based on the number of WRKY repeats and the structure of the zinc-finger motif, MaWRKY18 and MaWRKY60 belong to group II of WRKY TFs, while MaWRKY45 and MaWRKY70 are members of group III. Their corresponding proteins were located in the nuclei of onion epidermal cells and were shown to be functional TFs in yeast cells. Moreover, expression analyses revealed that the majority of these MaWRKY genes were upregulated by salicylic acid (SA) or methyl jasmonate (MeJA) phytohormones, although the expression levels were relatively higher with MeJA treatment. The fact that most of these banana WRKY genes were upregulated by SA or MeJA, which are involved in systemic acquired resistance (SAR) or induced systemic resistance (ISR), respectively, make them interesting candidates for bioengineering broad-spectrum resistance in this crop. © 2022 by the authors.
Article
BANANA TRANSCRIPTION FACTOR WRKY DEFENSE PHYTOHORMONES SALICYLIC ACID METHYL JASMONATE SAR ISR BROAD-SPECTRUM RESISTANCE BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA GENÉTICA GENÉTICA MOLECULAR DE PLANTAS GENÉTICA MOLECULAR DE PLANTAS