Your search keyword '"Iron compounds -- Research"' showing total 4 results

1. Silica and nitrogen-doped carbon co-coated lithium manganese iron phosphate microspheres as cathode materials for lithium batteries

Author

Liu, Jiangtao, Shi, Jiayuan, and Wang, Zhenbo

Subjects

Lithium compounds -- Research, Chemical research, Iron compounds -- Research, Phosphates -- Research, Chemistry

Abstract

Lithium manganese iron phosphate (Li[Mn.sub.1-x][Fe.sub.x]P[O.sub.4], LMFP) combines the advantages of LiFeP[O.sub.4] and LiMnP[O.sub.4]. However, low electronic conductivity and sluggish lithium ion diffusion of the LMFP cathode limits its commercial application. In this work, the LMFP microspheres were co-coated by silica and N-doped carbon for the improvement of electronic and ionic conductivity of LMFP. The hydrolysis of tetraethyl orthosilicate and the polymerization of dopamine can be mutually promoted in one reaction system to realize the simultaneous precipitation of Si and C species on the LMFP surfaces without the addition of acid-base catalysts or buffering agents. After high-temperature treatment in argon, the silica and N-doped carbon co-coated LMFP microspheres were obtained with improved cycling stability (84.4% of capacity retention for 300 cycles at 1 C) and enhanced rate performance (80.0 mAh [g.sup.-1] at 5 C). Therefore, this work shows a facile and common method for the composite coating of cathode materials. Key words: silica, N-doped carbon, lithium manganese iron phosphate, cathode, lithium battery. Le phosphate de fer-manganèse lithié (Li[Mn.sub.1-x][Fe.sub.x]P[O.sub.4], LMFP) allie les avantages du LiFeP[O.sub.4] et du LiMnP[O.sub.4]. Cependant, ses applications commerciales sont limitées en raison de sa faible conductivité électronique et de la diffusion peu efficace des ions lithium issus des cathodes de LMFP. Dans le cadre des présents travaux, nous avons recouvert des microsphères de LMFP d'un composite de silice et de carbone dopé à l'azote en vue d'améliorer la conductivité électronique et ionique du LMFP. L'hydrolyse de l'orthosilicate de tétraéthyle et la polymérisation de la dopamine peuvent se catalyser mutuellement dans un système réactionnel unique, permettant la précipitation simultanée d'espèces de Si et de C sur des surfaces de LMFP sans recourir à l'ajout de catalyseurs acido-basiques ou d'agents tampons. Lorsqu'elles sont traitées à haute température sous argon, les microsphères de LMFP recouvertes d'un composite de silice et de carbone dopé à l'azote peuvent être obtenues avec une stabilité de cyclage accrue (84,4% de rétention de capacité pendant 300 cycles à 1 C) et une plus grande rapidité de chargement (80,0 mAh [g.sup.-1] à 5 C). Ces travaux ont ainsi permis de présenter une méthode simple et commune pour réaliser le revêtement de matériaux cathodiques par un composite. [Traduit par la Rédaction] Mots-clés: silice, carbone dopé à l'azote, phosphate de fer-manganèse lithié, cathode, batterie au lithium., Introduction A lot of academic research and practical applications have been carried out to develop advanced materials and manufacturing technique of lithium ion batteries, due to their advantageous electrochemical performance [...]

Published

2022

2. Physical prospective of induction of ferro-constituents in buoyancy-driven magneto-nanofluid under the impact of magnetic dipole

Author

Kausar, Nabeela, Bilal, S., Tahir, Wajiha, and Un Nisa, Aisha

Subjects

Ferromagnetism -- Research, Iron compounds -- Research, Magnetic fields -- Research, Physics

Abstract

Fulfilment of energy in various sectors of society is the demand of today's world. Nowadays, researchers are working hard to propose such technologies to eradicate energy losses. Several improvements have been presented by the research community in this regard. After their struggle and hard work, researchers believed that this energy crisis could be overcome with the aid of fluids. So a procedure is executed to subject the fluid flows to a magnetic field. Furthermore, they also disclosed that induction of ferro-elements in a fluid under the existence of magnetic fields, known as ferrofluid, is a remarkable technique to overcome this huge social, economic, and technological problem. So the motto of the current literature is to investigate the elevated thermophysical features of viscous fluid by the inclusion of ferro-particles. To achieve said purpose, nickel zinc ferrite particles (NiZn[Fe.sub.2][O.sub.4]) are added to ethyl alcohol ([C.sub.2][H.sub.5]OH) in the presence of magnetic dipole. Flow is induced by a two-dimensional linearly elongated sheet. The governing momentum, energy, and thermal transport equations describing the thermomechanical aspects of ferrofluid is modelled in the form of partial differential expressions. Similar variables are needed to transfer the coupled partial expressions into ordinary differential system. Extensive computational interpretation of influencing parameters like ferromagnetic interaction parameter, viscous dissipation, and Curie temperature parameter on associated profiles is accomplished using the shooting method in collaboration with the Runge-Kutta-Fehlberg method. It is found that the primary function of the magnetic dipole is to reduce the velocity within the boundary layer and it tends to enrich the thermal attitude. Diminishing of the momentum distribution of ferro-particles is established in the presence of a magnetic dipole. Inclusion of mixed convection decreases the momentum, whereas an increase is induced in the thermal profile. Decrease of convective heat transfer magnitude is observed in the presence of magnetic dipole. Key words: magnetic dipole, ferrofluid, mixed convection, shooting method, wall shear stresses, heat fluxes, nickel zinc ferrites. Le monde d'aujourd'hui demande soient satisfaits que les besoins en energie des divers secteurs de la societe. A cet effet, les chercheurs s'activent pour proposer les technologies susceptibles d'eliminer les pertes en energie. Plusieurs propositions ont ete avancees par les chercheurs dans ce but. Apres beaucoup d'efforts, ils croient que ce probleme en energie peut etre eradique a l'aide de fluides. La procedure implique un flot de fluide interagissant avec un champ magnetique. Il est propose que l'introduction de materiel ferreux dans un fluide sous champ magnetique, formant un ferrofluide (une technologie remarquable), sera susceptible de contribuer a reduire ce grave probleme, a la fois social, economique et technologique. La tendance dans la litterature favorise l'examen des caracteristiques thermophysiques de fluides visqueux porteurs de particules ferreuses. Dans cette etude, nous considerons des particules de ferrite de zinc (NiZn[Fe.sub.2][O.sub.3]) dans de l'alcool ethylique ([C.sub.2][H.sub.5]OH) en presence d'un champ magnetique. Le flot est controle par deux plaques 2D allongees. Les equations directrices pour l'impulsion, l'energie et le transfert de chaleur decrivant les caracteristiques thermophysiques du ferrofluide, sont materialisees sous la forme d'equations differentielles. Des variables similaires servent a transformer ces equations aux derivees partielles couplees en un systeme d'equations differentielles ordinaires. Les methodes de Runge-Kutta-Fehlberg et de tir, nous permettent des solutions extensives numeriques de ces equations qui decrivent les effets sur les profils associes dus aux parametres pertinents, comme le parametre d'interaction ferromagnetique, la dissipation visqueuse et la temperature de Curie. La premiere consequence observee est que le champ magnetique reduit la vitesse dans la couche limite, ce qui augmente les transferts thermiques. Le champ magnetique diminue la distribution en impulsion des particules ferreuses. L'apparition de convexion mixte cause une diminution de l'impulsion et une augmentation du profil thermique, alors que le champ magnetique diminue le transfert convectif de chaleur. [Traduit par la Redaction] Mots-cles: dipole magnetique, ferrofluide, convexion mixte, methode de tir, contrainte de cisaillement mural., 1. Introduction Ferrofluids are smart nanomaterials synthesized by introducing ferromagnetic particles into a base fluid. Ferrofluids are a colloidal mixture of liquid and nanoscale ferromagnetic particles suspended uniformly in a [...]

Published

2019

3. Kinetics and mechanism of hydroxylamine oxidation by (Fe2(III)(mu-O)(phen)4(H2O)2)4+ in aqueous media

Author

Chaudhuri, Beauty and Banerjee, Rupendranath

Subjects

Chemical reaction, Rate of -- Research, Chemical equilibrium -- Research, Oxo compounds -- Research, Amines -- Research, Iron compounds -- Research

Published

1998

4. Polyacrylic acid pore-filled microporous membranes and their use in membrane-mediated synthesis of nanocrystalline ferrihydrite

Author

Winnik, Francoise M., Morneau, Andre, Mika, Alicja M., Childs, Ronald F., Roig, Anna, Molins, Elies, and Ziolo, Ronald F.

Subjects

Membranes (Technology) -- Research, Iron compounds -- Research

Published

1998