Hiromi Konishi scite author profile

Extended and oriented nanostructures are desirable for many applications, but direct fabrication of complex nanostructures with controlled crystalline morphology, orientation and surface architectures remains a significant challenge. Here we report a low-temperature, environmentally benign, solution-based approach for the preparation of complex and oriented ZnO nanostructures, and the systematic modification of their crystal morphology. Using controlled seeded growth and citrate anions that selectively adsorb on ZnO basal planes as the structure-directing agent, we prepared large arrays of oriented ZnO nanorods with controlled aspect ratios, complex film morphologies made of oriented nanocolumns and nanoplates (remarkably similar to biomineral structures in red abalone shells) and complex bilayers showing in situ column-to-rod morphological transitions. The advantages of some of these ZnO structures for photocatalytic decompositions of volatile organic compounds were demonstrated. The novel ZnO nanostructures are expected to have great potential for sensing, catalysis, optical emission, piezoelectric transduction, and actuations.

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Extracellular electron transfer through microbial reduction of solid-phase humic substances

Roden

et al. 2010

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Direct Water Splitting Through Vibrating Piezoelectric Microfibers in Water

Hong¹,

Xu²,

Konishi³

et al. 2010

J. Phys. Chem. Lett.

395

259

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We propose a mechanism, a piezoelectrochemical effect for the direct conversion of mechanical energy to chemical energy. This phenomenon is further applied for generating hydrogen and oxygen via direct water decomposition by means of as-synthesized piezoelectric ZnO microfibers and BaTiO3 microdendrites. Fibers and dendrites are vibrated with ultrasonic waves leading to a strain-induced electric charge development on their surface. With sufficient electric potential, strained piezoelectric fibers (and dendrites) in water triggered the redox reaction of water to produce hydrogen and oxygen gases. ZnO fibers under ultrasonic vibrations showed a stoichiometric ratio of H2/O2 (2:1) initial gas production from pure water. This study provides a simple and cost-effective technology for direct water splitting that may generate hydrogen fuels by scavenging energy wastes such as noise or stray vibrations from the environment. This new discovery may have potential implications in solving the challenging energy and environmental issues that we are facing today and in the future.

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Seafloor bioalteration of sulfide minerals: results from in situ incubation studies

Edwards

McCollom

Konishi

et al. 2003

Geochimica et Cosmochimica Acta

132

157

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Importance of c-Type cytochromes for U(VI) reduction by Geobacter sulfurreducens

et al. 2007

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Hiromi Konishi

Complex and oriented ZnO nanostructures

Extracellular electron transfer through microbial reduction of solid-phase humic substances

Direct Water Splitting Through Vibrating Piezoelectric Microfibers in Water

Seafloor bioalteration of sulfide minerals: results from in situ incubation studies

Importance of c-Type cytochromes for U(VI) reduction by Geobacter sulfurreducens

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