Device for nanoobject manipulation based on two-layer composite with shape memory

A device for gripping of microand nanoobjects (nanotweezers) with a working body made of bimetal composite (fast-quenched Ti 2 NiCu alloy with shape memory and platinum layer) is developed and studied. A method for manufacturing of the composite material using local ion etching and ion-stimulated de...

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Veröffentlicht in:	Journal of communications technology & electronics 2016-03, Vol.61 (3), p.302-310
Hauptverfasser:	Dikan, V. A., Mashirov, A. V., Zakharov, D. I., Mazaev, P. V., Zhikharev, A. M., Kalashnikov, V. S., Koledov, V. V., von Gratovski, S. V., Sitnikov, N. N., Irzhak, A. V., Shelyakov, A. V., Shavrov, V. G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Actuators Alloy development Alloys Analysis Bimetals Communications Engineering Communications equipment Communications technology Composite materials Composite materials industry Deformation Deposition Devices Displacement Efficiency Engineering Ion etching Laminated metals Mathematical analysis Micromachining Nanostructure Nanotechnology Networks Novel Radio Systems and Elements Phase transitions Shape memory alloys Studies
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container_title	Journal of communications technology & electronics
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creator	Dikan, V. A. Mashirov, A. V. Zakharov, D. I. Mazaev, P. V. Zhikharev, A. M. Kalashnikov, V. S. Koledov, V. V. von Gratovski, S. V. Sitnikov, N. N. Irzhak, A. V. Shelyakov, A. V. Shavrov, V. G.
description	A device for gripping of microand nanoobjects (nanotweezers) with a working body made of bimetal composite (fast-quenched Ti 2 NiCu alloy with shape memory and platinum layer) is developed and studied. A method for manufacturing of the composite material using local ion etching and ion-stimulated deposition from gas phase is proposed. A structure of nanotweezers based on such a composite and experiments on gripping and displacement of submicron objects are presented.
doi_str_mv	10.1134/S1064226916030086
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subjects	Actuators Alloy development Alloys Analysis Bimetals Communications Engineering Communications equipment Communications technology Composite materials Composite materials industry Deformation Deposition Devices Displacement Efficiency Engineering Ion etching Laminated metals Mathematical analysis Micromachining Nanostructure Nanotechnology Networks Novel Radio Systems and Elements Phase transitions Shape memory alloys Studies
title	Device for nanoobject manipulation based on two-layer composite with shape memory
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