Your search keyword '"COATING STRATEGIES"' showing total 12 results

1. Recent advance in coating strategies for lithium-rich manganese-based cathode materials.

Author

Wang, Qianchen, Liu, Lei, Li, Hudong, Yang, Gaojing, Alodhayb, Abdullah N., and Ma, Jianmin

Subjects

PHASE transitions, ELECTRODE performance, ENERGY density, LITHIUM-ion batteries, TRANSITION metals

Abstract

• LRMs exhibit significant potential as cathode material for lithium-ion batteries. • Coating strategies have the capability to enhance the electrochemical performance of LRMs. • Surface coating plays a role in reducing phase transition and minimizing oxygen loss. • CEI engineering contributes to improving interfacial robustness and facilitating Li+ diffusion. The growing need for higher energy density in rechargeable batteries necessitates the exploration of cathode materials with enhanced specific energy for lithium-ion batteries. Due to their exceptional cost-effectiveness and specific capacity, lithium-rich manganese-based cathode materials (LRMs) obtain increasing attention in the pursuit of enhancing energy density and reducing costs. The implementation has faced obstacles in various applications due to substantial capacity and voltage degradation, insufficient safety performance, and restricted rate capability during cycling. These issues arise from the migration of transition metal, the release of oxygen, and structural transformation. In this review, we provide an integrated survey of the structure, lithium storage mechanism, challenges, and origins of LRMs, as well as recent advancements in various coating strategies. Particularly, the significance of optimizing the design of the cathode electrolyte interphase was emphasized to enhance electrode performance. Furthermore, future perspective was also addressed alongside in-situ measurements, advanced synthesis techniques, and the application of machine learning to overcome encountered challenges in LRMs. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2025

2. Methods and Materials for Drug Eluting Urinary Stents Design and Fabrication

Author

Carmagnola, Irene, Giuntoli, Giulia, Ciardelli, Gianluca, Soria, Federico, editor, Rako, Duje, editor, and de Graaf, Petra, editor

Published

2022

3. Current scenario and prospects in manufacture strategies for glass, quartz, polymers and metallic microreactors: A comprehensive review.

Author

Domínguez, M. Isabel, Centeno, Miguel A., Martínez T., Marcela, Bobadilla, Luis F., Laguna, Óscar H., and Odriozola, José A.

Subjects

*MICROREACTORS, *CHEMICAL processes, *CHEMICAL reactions, *GLASS industry, *MASS transfer, *QUARTZ, *POLYMERS

Abstract

[Display omitted] • Microreactor technology is crucial for developing the intensification process. • There is a wide range of manufacture strategies and coating methods for catalytic microreactors. • Depending on the applications, microreactors can be made with different materials (glass, metal, polymer, etc.). • 3D-printing and additive manufacturing (AM) open new horizons for designing microreactors. One of the most remarkable benefits of the microreactors is the achievement of more efficient processes by enhancing the heat and mass transfer phenomena, which is the key factor for processes intensification in chemical reactions, resulting in higher conversion, selectivity and yield towards desired products. Currently, the entire scenario of microreaction approach is an emergent technology and further advances are ongoing. Several strategies have been successfully applied for structuring processes that imply the fixation of the catalysts on the microreactors. However, there are features such as the physicochemical stability of the coatings under reaction conditions that must be improved, motivating the search for new protocols. This review provides a general overview of the most important methodologies applied for glass, quartz, polymers and metals microreactors manufacture and for their coating, analyzing the advantages and drawbacks of every procedure. Furthermore, an outline of the novel insights based on additive manufacturing techniques are described. [ABSTRACT FROM AUTHOR]

Published

2021

4. Advances and Prospects of Surface Modification on Nickel‐Rich Materials for Lithium‐Ion Batteries†.

Author

Su, Yuefeng, Chen, Gang, Chen, Lai, Li, Qing, Lu, Yun, Bao, Liying, Li, Ning, Chen, Shi, and Wu, Feng

Subjects

*SURFACE coatings, *MATERIALS, *TELEOLOGY, *POWER density, *SURFACE reactions, *THERMAL stability

Abstract

Although layered Ni‐rich cathode materials have attracted lots of attention for their high capacity and power density, several significant issues, such as poor thermal stability and moderate cyclability, limit their practical applications. Most of these undesired problems of Ni‐rich materials are caused by the unstable surface or the parasitic reactions at cathode‐electrolyte interface. Surface coating is the most common method to suppress such interfacial problems for Ni‐rich materials. This review focuses on the surface engineering of the Ni‐rich materials in recent years, including the species used in coating, synthetic strategies of uniform coating layer, and the positive effects of coating species on the active materials. Detailed discussions are also taken to describe the formation mechanism of the surface coating layer with design philosophy. Finally, the prospects for further developments and challenges in surface coating are also summarized. [ABSTRACT FROM AUTHOR]

Published

2020

5. Advances and Prospects of Surface Modification on Nickel‐Rich Materials for Lithium‐Ion Batteries†.

Author

Su, Yuefeng, Chen, Gang, Chen, Lai, Li, Qing, Lu, Yun, Bao, Liying, Li, Ning, Chen, Shi, and Wu, Feng

Subjects

SURFACE coatings, MATERIALS, TELEOLOGY, POWER density, SURFACE reactions, THERMAL stability

Abstract

Although layered Ni‐rich cathode materials have attracted lots of attention for their high capacity and power density, several significant issues, such as poor thermal stability and moderate cyclability, limit their practical applications. Most of these undesired problems of Ni‐rich materials are caused by the unstable surface or the parasitic reactions at cathode‐electrolyte interface. Surface coating is the most common method to suppress such interfacial problems for Ni‐rich materials. This review focuses on the surface engineering of the Ni‐rich materials in recent years, including the species used in coating, synthetic strategies of uniform coating layer, and the positive effects of coating species on the active materials. Detailed discussions are also taken to describe the formation mechanism of the surface coating layer with design philosophy. Finally, the prospects for further developments and challenges in surface coating are also summarized. [ABSTRACT FROM AUTHOR]

Published

2020

6. Relación entre calidad de vida y estrategias de afrontamiento asociadas a programas de integración interdiciplinar

Author

Gabriela Gonzalez Antunes, Secretaría de Investigación y desarrollo de la Universidad de Flores - MenteClara Foundation, and Fundación MenteClara - Universidad de Flores.

Subjects

psicología, integración interdisciplinar, psicología positiva, Philosophy. Psychology. Religion, calidad de vida, quality of life, coating strategies, interdisciplinary integration, positive psychology, Buddhism, BQ1-9800, psychology, estrategias de afrontamiento

Abstract

This work is a bibliographic compilation that relates two variables: Quality of Life and Coping Strategies. The first of these variables is understood as the individual's perceptions of their position in life, in a given time and space, in the context of the culture and the value system in which they live. In relation to your goals, expectations, standards, and concerns. While, the second variable as the constantly changing cognitive and behavioural efforts that are carried out to manage, and overcome the specific external and / or internal situations that are evaluated as surplus or overflowing of the individual's resources. That said, the present study through a bibliographic review has been able to account for a highly positive relationship in the variables, since, by having greater coping tools, the individual manages to perceive greater satisfaction with his life. In turn, this relationship between variables is coupled with numerous studies and interdisciplinary integration programs that aim to generate an integrative view of the experience of patients and their families. Este trabajo es una recopilación bibliográfica que relaciona dos variables: Calidad de Vida y Estrategias de Afrontamiento. La primera de estas variables es entendida como las percepciones del individuo de su posición en la vida, en un tiempo y espacio determinado, en el contexto de la cultura y el sistema de valores en los que vive. En relación con sus objetivos, expectativas, estándares y preocupaciones. Mientras que, la segunda variable como los esfuerzos cognitivos y conductuales en constante cambio que se llevan a cabo para manejar, y sobreponerse a las situaciones específicas externas y/o internas que son evaluadas como excedentes o desbordantes de los recursos del individuo. Dicho esto, el presente estudio a través de una revisión bibliográfica ha podido dar cuenta de una relación altamente positiva en las variables, ya que, al poseer mayores herramientas de afrontamiento, el individuo logra percibir una mayor satisfacción con su vida. A su vez esta relación entre variables va emparejada a numerosos estudios y programas de integración interdisciplinar que tienen como objetivo generar una mirada integradora del vivenciar de los pacientes y sus familias.

Published

2022

7. Methods and Materials for Drug Eluting Urinary Stents Design and Fabrication

Author

Irene Carmagnola, Giulia Giuntoli, and Gianluca Ciardelli

Subjects

Bioabsorbable drug eluting urinary stent, Drug eluting urinary stent, Stent manufacturing, Coating strategies, Drug release, Bioabsorbable drug eluting urinary stent, Stent manufacturing, Drug release, Coating strategies, Drug eluting urinary stent

Abstract

After urinary stenting, patients often suffer from mid- and long-term complications, such as infections, bacterial colonization, encrustations, or stent obstruction which are related to the design, materials and surface properties of the stent. Drug eluting stents (DES) is an advance technology that can reduce the morbidity associated with stenting, by locally releasing loaded drugs in a time-controlled manner. In this chapter is firstly reported an overview of the materials and manufacturing methods for conventional urinary stents, then are discussed the engineered strategies for the design and fabrication of drug eluting stents. Drug eluting ureteral stents, and in general urinary stents, were introduced to performed a drug delivery aiming to obtain a local treatment as well as to overcomes the main issues related to urinary stenting implantation. Drugs and/or active agents can be directly loaded in the stent structure or can be introduced through a surface coating. Drug-eluting technologies can then be combined with biodegradable stents in order to eliminate the need for stent removal procedure. However some disadvantages remain still unsolved. In the last decades innovative manufacturing approaches and methods, such as nanotechnologies and additive manufacturing techniques, provide to scientists new tools for the design and fabrication on smart and custom-made urinary stents, able to go towards perfectly to patient needs.

Published

2022

8. Current scenario and prospects in manufacture strategies for glass, quartz, polymers and metallic microreactors: A comprehensive review

Author

Universidad de Sevilla. Departamento de Química Inorgánica, Ministerio de Ciencia, Innovación y Universidades (MICINN). España, Domínguez Leal, María Isabel, Centeno Gallego, Miguel Ángel, Martínez Tejada, Leidy Marcela, Bobadilla Baladrón, Luis Francisco, Laguna Espitia, Oscar Hernando, Odriozola Gordón, José Antonio, Universidad de Sevilla. Departamento de Química Inorgánica, Ministerio de Ciencia, Innovación y Universidades (MICINN). España, Domínguez Leal, María Isabel, Centeno Gallego, Miguel Ángel, Martínez Tejada, Leidy Marcela, Bobadilla Baladrón, Luis Francisco, Laguna Espitia, Oscar Hernando, and Odriozola Gordón, José Antonio

Abstract

One of the most remarkable benefits of the microreactors is the achievement of more efficient processes by enhancing the heat and mass transfer phenomena, which is the key factor for processes intensification in chemical reactions, resulting in higher conversion, selectivity and yield towards desired products. Currently, the entire scenario of microreaction approach is an emergent technology and further advances are ongoing. Several strategies have been successfully applied for structuring processes that imply the fixation of the catalysts on the microreactors. However, there are features such as the physicochemical stability of the coatings under reaction conditions that must be improved, motivating the search for new protocols. This review provides a general overview of the most important methodologies applied for glass, quartz, polymers and metals microreactors manufacture and for their coating, analyzing the advantages and drawbacks of every procedure. Furthermore, an outline of the novel insights based on additive manufacturing techniques are described.

Published

2021

9. Current scenario and prospects in manufacturestrategies for glass, quartz, polymers and metallicmicroreactors: A comprehensive review

Author

Ministerio de Ciencia, Innovación y Universidades (España), Domínguez, M.Isabel, Centeno, Miguel Ángel, Martínez T., Marcela, Bobadilla, Luis F., Laguna, Óscar H., Odriozola, José Antonio, Ministerio de Ciencia, Innovación y Universidades (España), Domínguez, M.Isabel, Centeno, Miguel Ángel, Martínez T., Marcela, Bobadilla, Luis F., Laguna, Óscar H., and Odriozola, José Antonio

Abstract

tOne of the most remarkable benefits of the microreactors is the achievement of more effi-cient processes by enhancing the heat and mass transfer phenomena, which is the key factorfor processes intensification in chemical reactions, resulting in higher conversion, selec-tivity and yield towards desired products. Currently, the entire scenario of microreactionapproach is an emergent technology and further advances are ongoing. Several strategieshave been successfully applied for structuring processes that imply the fixation of the cata-lysts on the microreactors. However, there are features such as the physicochemical stabilityof the coatings under reaction conditions that must be improved, motivating the search fornew protocols. This review provides a general overview of the most important method-ologies applied for glass, quartz, polymers and metals microreactors manufacture and fortheir coating, analyzing the advantages and drawbacks of every procedure. Furthermore, anoutline of the novel insights based on additive manufacturing techniques are described.

Published

2021

10. Current scenario and prospects in manufacture strategies for glass, quartz, polymers and metallic microreactors: A comprehensive review

Author

Domínguez Leal, María Isabel, Centeno Gallego, Miguel Ángel, Martínez Tejada, Leidy Marcela, Bobadilla Baladrón, Luis Francisco, Laguna Espitia, Oscar Hernando, Odriozola Gordón, José Antonio, Universidad de Sevilla. Departamento de Química Inorgánica, and Ministerio de Ciencia, Innovación y Universidades (MICINN). España

Subjects

Polymeric microreactors, Metallic microreactors, Quartz microreactors, Additive manufacturing (AM), Coating strategies, Microreactors fabrication

Abstract

One of the most remarkable benefits of the microreactors is the achievement of more efficient processes by enhancing the heat and mass transfer phenomena, which is the key factor for processes intensification in chemical reactions, resulting in higher conversion, selectivity and yield towards desired products. Currently, the entire scenario of microreaction approach is an emergent technology and further advances are ongoing. Several strategies have been successfully applied for structuring processes that imply the fixation of the catalysts on the microreactors. However, there are features such as the physicochemical stability of the coatings under reaction conditions that must be improved, motivating the search for new protocols. This review provides a general overview of the most important methodologies applied for glass, quartz, polymers and metals microreactors manufacture and for their coating, analyzing the advantages and drawbacks of every procedure. Furthermore, an outline of the novel insights based on additive manufacturing techniques are described. Ministerio de Ciencia, Innovación y Universidades RTI2018- 096294-B-C33, ENE2017-82451-C3-3-R

Published

2021

11. Alumina-supported nickel onto cordierite monoliths for ethane oxydehydrogenation: Coating strategies and their effect on the catalytic behavior

Author

Viviana Guadalupe Milt, Juan Pablo Bortolozzi, Maria Alicia del H. Ulla, Paula Brussino, and Ezequiel David Banus

Subjects

Materials science, Recubrimientos y Películas, General Chemical Engineering, ALUMINA-SUPPORTED NICKEL, Nanoparticle, Cordierite, 02 engineering and technology, INGENIERÍAS Y TECNOLOGÍAS, engineering.material, 010402 general chemistry, 01 natural sciences, Industrial and Manufacturing Engineering, Catalysis, Coating, Ingeniería de los Materiales, COATING STRATEGIES, Dehydrogenation, Monolith, geography, geography.geographical_feature_category, Metallurgy, Non-blocking I/O, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Ingeniería Química, Chemical engineering, Otras Ingeniería Química, engineering, CORDIERITE MONOLITHS, Particle size, ODH ETHANE, 0210 nano-technology

Abstract

Different strategies for the generation of Ni (15 wt.%)/Al2O3 catalytic coatings onto cordierite monoliths applied to the oxidative dehydrogenation of ethane (ODHE) were investigated. Strategy 1 involved the deposition of an alumina layer (nanoparticles or micro + nanoparticles) and the later incorporation of the active phase. Strategy 2 employed a suspension containing a powder catalyst that was used to deposit the catalytic film. Morphological (SEM) and physicochemical (LRS and XPS) characterizations were used to explain the catalytic performance of the structured systems. The NiO particles distribution on the catalytic coatings obtained was analyzed via SEM-EDX performed in different monolith regions. The ultrasonic test was used to evaluate the anchoring of these catalytic films to the substrates. It was concluded that the selection of both the strategy and the particle size of the support is extremely important in order to obtain a homogeneously dispersed, accessible and highly adhered to the substrate catalyst. Fil: Brussino, Paula. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Investigaciones en Catálisis y Petroquímica ; Argentina Fil: Bortolozzi, Juan Pablo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Investigaciones en Catálisis y Petroquímica ; Argentina Fil: Milt, Viviana Guadalupe. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Investigaciones en Catálisis y Petroquímica ; Argentina Fil: Banus, Ezequiel David. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Investigaciones en Catálisis y Petroquímica ; Argentina Fil: Ulla, Maria Alicia del H.. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Investigaciones en Catálisis y Petroquímica ; Argentina

Published

2016

12. Versatile theranostics agents designed by coating ferrite nanoparticles with biocompatible polymers

Author

University of Isfahan, Iranian Government, European Commission, Comunidad de Madrid, Zahraei, M., Marciello, Marzia, Lazaro-Carrillo, A., Villanueva, A., Herranz, F., Talelli, M., Costo, Rocío, Monshi, A., Shahbazi-Gahrouei, D., Amirnasr, M., Behdadfar, B., Morales, M. P., University of Isfahan, Iranian Government, European Commission, Comunidad de Madrid, Zahraei, M., Marciello, Marzia, Lazaro-Carrillo, A., Villanueva, A., Herranz, F., Talelli, M., Costo, Rocío, Monshi, A., Shahbazi-Gahrouei, D., Amirnasr, M., Behdadfar, B., and Morales, M. P.

Abstract

Three biocompatible polymers, polyethylene glycol (PEG), dextran and chitosan, have been used in this work to control the colloidal stability of magnetic nanoparticles (14 ± 5 nm in diameter) and to vary the aggregation state in order to study their effect on relaxometric and heating properties. Two different coating strategies have been deeply developed; one based on the formation of an amide bond between citric acid coated nanoparticles (NPs) and amine groups present on the polymer surface and the other based on the NP encapsulation. Relaxometric properties revealed that proton relaxation rates strongly depend on the coating layer hydrophilicity and the aggregation state of the particles due to the presence of magnetic interactions. Thus, while PEG coating reduces particle aggregation by increasing inter-particle spacing leading to reduction of both T and T relaxation, dextran and chitosan lead to an increase mainly in T values due to the aggregation of particles in bigger clusters where they are in close contact. Dextran and chitosan coated NPs have also shown a remarkable heating effect during the application of an alternating magnetic field. They have proved to be potential candidates as theranostic agents for cancer diagnosis and treatment. Finally, cytotoxicity of PEG conjugated NPs, which seem to be ideal for intravenous administration because of their small hydrodynamic size, was investigated resulting in high cell viability even at 0.2 mg Fe ml after 24 h of incubation. This suspension can be used as drug/biomolecule carrier for in vivo applications.

Published

2016