Chemical Bonding Assembly of Multifunctional Oxide Nanocomposites

Evans, Gary; Duong, Giap V.; Ingleson, Michael J.; Xu, Zhou; Jones, James T. A.; Khimyak, Yaroslav Z.; Claridge, John B.; Rosseinsky, Matthew J.

doi:10.1002/adfm.200901632

Cited by 32 publications

(17 citation statements)

References 35 publications

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“…The synthesis of the magnetostrictive nanoparticles used in polymer‐based ME particulate nanocomposites is well discussed in the literature 52–57. On the other hand, the interface effects between nanoparticles and the polymer matrix has received only little attention.…”

Section: Polymer‐based Magnetoelectric Materialsmentioning

confidence: 99%

Polymer‐Based Magnetoelectric Materials

Martins

Lanceros‐Méndez

2013

Adv Funct Materials

318

296

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Polymer‐based magnetoelectric (ME) materials are an interesting, challenging and innovative research field, that will bridge the gap between fundamental research and applications in the near future. Here, the current state of the art on the different materials, the used configurations for the development of sensors and actuators, as well as the main values of the ME coupling obtained for the different polymer‐based systems are summarized. Further, some of the specific applications that are being developed for those polymer‐based ME materials are addressed as well as the main advantages and remaining challenges in this research field.

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Section: Polymer‐based Magnetoelectric Materialsmentioning

confidence: 99%

Polymer‐Based Magnetoelectric Materials

Martins

Lanceros‐Méndez

2013

Adv Funct Materials

318

296

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“…Tailored fabrication of novel ceramic materials composed of periodic arrays of micro‐ and nanoscale phases is still in its infancy. For example, it has been shown that chemical functionalization and bonding can be used to predictably assemble distinctly different sets of oxide nanoparticles . Approaches such as these can offer general fabrication platforms to produce dense hybrid composites with property combinations of interest in a broad range of applications including energy storage, photon harvesting, and catalysis.…”

Section: Grand Challenges For Ceramic Sciencementioning

confidence: 99%

Challenges in Ceramic Science: A Report from the Workshop on Emerging Research Areas in Ceramic Science

et al. 2012

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In March 2012, a group of researchers met to discuss emerging topics in ceramic science and to identify grand challenges in the field. By the end of the workshop, the group reached a consensus on eight challenges for the future:—understanding rare events in ceramic microstructures, understanding the phase‐like behavior of interfaces, predicting and controlling heterogeneous microstructures with unprecedented functionalities, controlling the properties of oxide electronics, understanding defects in the vicinity of interfaces, controlling ceramics far from equilibrium, accelerating the development of new ceramic materials, and harnessing order within disorder in glasses. This paper reports the outcomes of the workshop and provides descriptions of these challenges.

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“…The structural parameters play a crucial role in determining and optimizing the sensor-related properties (Calfen and Mann 2003;Tretyakov 2003;Rawle 2007;Perry and Carter 2006;Evans et al 2010;Colfen and Antonietti 2005;Demortière et al 2008;Shevchenko et al 2006;Koziej et al 2014;Ansari et al 2014). In order to achieve desired shape and size with enhanced functional properties, bottom-to-top wet chemical approach was undertaken to synthesize functional nanopowder for their chemical and biological studies.…”

Section: Methodsmentioning

confidence: 99%

Synthesis of nanostructured framework of novel ZnBaO2 nanopowder via wet chemical approach and hepatocytotoxicity response

et al. 2015

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Wet synthetic process is an effective and facile method at low cost, environmentally benign process for easy scaling-up and then used for fabrication of multiutility devices. Self-assembling of nanobrick leads to architecture framework with new functional properties which help to make its vast applications as nanodevices with their intrinsic shape, size and functional properties. The bimetallic oxide nanostructure with phase structure was characterized by FTIR, UV-visible electronic absorption, XRD, thermal studies, SEM, TEM, DLS and fluorescence. Nanocrystalline ZnBaO 2 powder can be used due to its chemical stability and excellent transmission in the visible region. It was observed that the annealing rate plays an important role to redefine the structural and other physicochemical properties which finally help to change gel into crystalline functional properties with porosity. Wet chemical approach can be used for the synthesis of other metal oxide nanopowders which can be easily scale up for production level. Along with synthesis and characterization, we also assessed biological responses of human hepatocytes exposed to ZnBaO 2 nanopowder. Cell membrane permeability and ammonia detoxification were investigated against various concentrations of nanoparticles on in vitro cultured hepatocytes. Our results suggest that low concentrations (\40 lg/ml) of ZnBaO 2 nanopowder have no cytotoxic effect on hepatocytes viability, proliferation and detoxification, whereas concentrations above 40 lg/ml depict significant toxicity on cells.

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Chemical Bonding Assembly of Multifunctional Oxide Nanocomposites

Cited by 32 publications

References 35 publications

Polymer‐Based Magnetoelectric Materials

Polymer‐Based Magnetoelectric Materials

Challenges in Ceramic Science: A Report from the Workshop on Emerging Research Areas in Ceramic Science

Synthesis of nanostructured framework of novel ZnBaO2 nanopowder via wet chemical approach and hepatocytotoxicity response

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