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Creation and characterization of magnesium oxide macroporous ceramics

Materials Engineering and Sciences Division - Core Programming Topic at the 2011 AIChE Annual Meeting

Mondy, L.A.; DiAntonio, Christopher D.; Chavez, Tom C.; Hughes, Lindsey G.; Grillet, Anne M.; Roberts, Christine C.; Ingersoll, David I.

We examine several methods to create a sheet of magnesium oxide (MgO) macroporous ceramic material via tape casting. These methods include the approach pioneered by Akartuna et al.1 in which an oil/water emulsion is stabilized by surface-modified metal oxide particles at the droplet interfaces. Upon drying, a scaffold of the self-assembled particles is strong enough to be removed from the substrate material and sintered. We find that this method can be used with MgO particles surface modified by short amphiphilic molecules. This approach is compared with two more traditional methods to induce structure into a green ceramic: 1) creation of an MgO ceramic slip with added pore formers, and 2) sponge impregnation of a reticulated foam with the MgO slip. Green and sintered samples made using each method are hardness tested and results compared for several densities of the final ceramics. Optical and SEM images of the materials are shown.

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Synthesis and electrical analysis of nano-crystalline barium titanate nanocomposites for use in high-energy density applications

DiAntonio, Christopher D.; Monson, Todd M.; Winter, Michael R.; Roesler, Alexander R.; Chavez, Tom C.; Yang, Pin Y.

Ceramic based nanocomposites have recently demonstrated the ability to provide enhanced permittivity, increased dielectric breakdown strength, and reduced electromechanical strain making them potential materials systems for high energy density applications. A systematic characterization and optimization of barium titanate and PLZT based nanoparticle composites employing a glass or polymer matrix to yield a high energy density component will be presented. This work will present the systematic characterization and optimization of barium titanate and lead lanthanum zirconate titanate nanoparticle based ceramics. The nanoparticles have been synthesized using solution and pH-based synthesis processing routes and employed to fabricate polycrystalline ceramic and nanocomposite based components. The dielectric/ferroelectric properties of these various components have been gauged by impedance analysis and electromechanical response and will be discussed.

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Aqueous synthesis and electrical properties of nano-crystalline PLZT capacitors

DiAntonio, Christopher D.; Monson, Todd M.; Chavez, Tom C.; Stevens, Tyler E.; Roesler, Alexander R.; Huber, Dale L.

Devices with nano-crystalline microstructures have been shown to possess improved electrical properties. Further advantages include lower processing temperatures; however, device fabrication from nano-particles poses several challenges. This presentation describes a novel aqueous synthesis technique to produce large batch sizes with minimal waste. The precipitate is readily converted at less than 550 C to a phase pure, nano-crystalline Pb{sub 0.88} La{sub 0.12}(Zr{sub 0.70} Ti{sub 0.30}){sub 0.97} O{sub 3} powder. Complications and solutions to sample fabrication from nano-powders are discussed, including the use of glass sintering aids to improve density and further lower sintering temperatures. Finally, electrical properties are presented to demonstrate the potential benefits of nano-crystalline capacitors.

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Dielectric and ferroelectric analysis of nanoparticle/nanocrystalline barium titanate and PLZT

DiAntonio, Christopher D.; Monson, Todd M.; Yang, Pin Y.; Winter, Michael R.; Roesler, Alexander R.; Chavez, Tom C.

Attractive for numerous technological applications, ferroelectronic oxides constitute an important class of multifunctional compounds. Intense experimental efforts have been made recently in synthesizing, processing and understanding ferroelectric nanostructures. This work will present the systematic characterization and optimization of barium titanate and lead lanthanum zirconate titanate nanoparticle based ceramics. The nanoparticles have been synthesized using several solution and pH-based synthesis processing routes and employed to fabricate polycrystalline ceramic and nanocomposite based components. The dielectric and ferroelectric properties of these various components have been gauged by impedance analysis and electromechanical response and will be discussed.

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Nano-crystalline PLZT for dielectric applications

DiAntonio, Christopher D.; Monson, Todd M.; Roesler, Alexander R.; Huber, Dale L.; Chavez, Tom C.; Stevens, Tyler E.

Nano-materials have shown unique crystallite-dependent properties that present distinct advantages for dielectric applications. PLZT is an excellent dielectric material used in several applications and may benefit crystallite engineering; however complex systems such as PLZT require well-controlled synthesis techniques. An aqueous based synthesis route has been developed, using standard precursor chemicals and scalable techniques to produce large batch sizes. The synthesis will be briefly covered, followed by a more in-depth discussion of incorporating nanocrystalline PLZT into a working device. Initial electrical properties will be presented illustrating the potential benefits and associated difficulties of working with PLZT nano-materials.

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Development of low-cost, compact, reliable, high energy density ceramic nanocomposite capacitors

Monson, Todd M.; DiAntonio, Christopher D.; Winter, Michael R.; Huber, Dale L.; Roesler, Alexander R.; Chavez, Tom C.; Stevens, Tyler E.; Vreeland, Erika C.

The ceramic nanocomposite capacitor goals are: (1) more than double energy density of ceramic capacitors (cutting size and weight by more than half); (2) potential cost reductino (factor of >4) due to decreased sintering temperature (allowing the use of lower cost electrode materials such as 70/30 Ag/Pd); and (3) lower sintering temperature will allow co-firing with other electrical components.

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Barium titanate nanocomposite capacitor FY09 year end report

Stevens, Tyler E.; DiAntonio, Christopher D.; Winter, Michael R.; Chavez, Tom C.; Yang, Pin Y.; Roesler, Alexander R.

This late start RTBF project started the development of barium titanate (BTO)/glass nanocomposite capacitors for future and emerging energy storage applications. The long term goal of this work is to decrease the size, weight, and cost of ceramic capacitors while increasing their reliability. Ceramic-based nanocomposites have the potential to yield materials with enhanced permittivity, breakdown strength (BDS), and reduced strain, which can increase the energy density of capacitors and increase their shot life. Composites of BTO in glass will limit grain growth during device fabrication (preserving nanoparticle grain size and enhanced properties), resulting in devices with improved density, permittivity, BDS, and shot life. BTO will eliminate the issues associated with Pb toxicity and volatility as well as the variation in energy storage vs. temperature of PZT based devices. During the last six months of FY09 this work focused on developing syntheses for BTO nanoparticles and firing profiles for sintering BTO/glass composite capacitors.

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Results 51–75 of 81
Results 51–75 of 81