Melinda Mohl scite author profile

Copper nanowires (NWs) with uniform diameters and lengths ranging from several hundreds of nanometers to several micrometers have been prepared with high yield by a simple hydrothermal procedure. The X-ray diffraction (XRD) and energy dispersive X-ray spectroscopy (EDS) analysis data indicate that the copper nanowires are free of any contamination, while the electron diffraction (ED) analysis has revealed the nanowires to be single crystals. The nanowire growth mechanism has also been discussed. Hexadecylamine is the surface stabilizing agent in our method, while glucose facilitates formation of single-crystalline seeds on which the copper nanowires grow. The electrical properties of the as-synthesized copper NWs have also been investigated.

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Formation of CuPd and CuPt Bimetallic Nanotubes by Galvanic Replacement Reaction

Mohl

et al. 2011

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Synthesis of Catalytic Porous Metallic Nanorods by Galvanic Exchange Reaction

et al. 2009

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We demonstrate a simple method for the synthesis of nanoporous metal (Au, Pt, and Pd) rods by the galvanic exchange reaction using Ni as a sacrificial template. Nickel nanorods, prepared by electrodeposition inside porous alumina membrane, were converted to various nanoporous metallic structures by dispersing them in metal salt solutions of the respective metals that are galvanically exchanged. The catalytic activity of the porous Pt and Pd nanorods in the hydrogenation of ethylene was comparable to supported Pt and Pd nanoparticles. The porous nanorods provide a new form of unsupported catalysts in contrast to traditional supported nanoparticle catalysts and can be synthesized in uniform sizes and separated easily from the reaction mixtures without aggregation.

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Ultrasensitive H2S gas sensors based on p-type WS2 hybrid materials

et al. 2018

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Owing to their higher intrinsic electrical conductivity and chemical stability with respect to their oxide counterparts, nanostructured metal sulfides are expected to revive materials for resistive chemical sensor applications. Herein, we explore the gas sensing behavior of WS 2 nanowire-nanoflake hybrid materials and demonstrate their excellent sensitivity (0.043 ppm-1) as well as high selectivity towards H 2 S relative to CO, NH 3 , H 2 , and NO (with corresponding sensitivities of 0.002, 0.0074, 0.0002, and 0.0046 ppm-1 , respectively). Gas response measurements, complemented with the results of X-ray photoelectron spectroscopy analysis and first-principles calculations based on density functional theory, suggest that the intrinsic electronic properties of pristine WS 2 alone are not sufficient to explain the observed high sensitivity towards H 2 S. A major role in this behavior is also played by O doping in the S sites of the WS 2 lattice. The results of the present study open up new avenues for the use of transition metal disulfide nanomaterials as effective alternatives to metal oxides in future applications for industrial process control, security, and health and environmental safety.

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Room temperature hydrogen sensors based on metal decorated WO3 nanowires

Kukkola

Mohl

Leino

et al. 2013

Sensors and Actuators B: Chemical

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Layered titanate nanostructures: perspectives for industrial exploitation

Kordás

Mohl

Kónya

2015

Transl. Mater. Res.

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Anisotropic titanate nanostructures can be synthesized by an environmentally benign, cost efficient and scalable process, the alkaline hydrothermal recrystallization of TiO 2 with yields approaching 100%. Their chemistry offers more variety than that of TiO 2 nanoparticles and promising preliminary results were already achieved on them in the fields of adsorption, catalysis and energy storage. In this review we first discuss the structure, synthesis and functionalization options of titanate nanotubes and nanowires, then the issues related to their industrial scale production, and finally present selected examples of their currently available applications.

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Photocatalytic reduction of CO2 with H2O over modified TiO2 nanofibers: Understanding the reduction pathway

et al. 2016

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Inkjet-printed gas sensors: metal decorated WO3 nanoparticles and their gas sensing properties

et al. 2012

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Inkjet deposition is an attractive technology to localize nanomaterials in an area-selective manner on virtually any kind of surfaces. Great advantages of the method are effective usage of materials, low processing temperatures and few required manufacturing steps, thus enabling rapid prototyping and bulk production with reasonably low cost. A number of different electrical devices such as light emitting diodes, transistors and solar cells have already been demonstrated, reflecting the versatility of inkjet printing. In this paper, we collect the contemporary results on inkjet deposited gas sensors and show examples of such gas sensing devices based on surface modified WO 3 nanoparticles for efficient discrimination of various gaseous analytes from sub-ppm up to nearly 0.1% concentration levels in air.

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Melinda Mohl

Low-Temperature Large-Scale Synthesis and Electrical Testing of Ultralong Copper Nanowires

Formation of CuPd and CuPt Bimetallic Nanotubes by Galvanic Replacement Reaction

Synthesis of Catalytic Porous Metallic Nanorods by Galvanic Exchange Reaction

Ultrasensitive H2S gas sensors based on p-type WS2 hybrid materials

Room temperature hydrogen sensors based on metal decorated WO3 nanowires

Layered titanate nanostructures: perspectives for industrial exploitation

Photocatalytic reduction of CO2 with H2O over modified TiO2 nanofibers: Understanding the reduction pathway

Inkjet-printed gas sensors: metal decorated WO3 nanoparticles and their gas sensing properties

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