Organometallic Deposition of Nickel: An Electroless Route to Nanoscale Films

Meital Shviro; András Paszternák; David Zitoun

doi:10.1149/ma2014-02/15/811

Organometallic Deposition of Nickel: An Electroless Route to Nanoscale Films

Meital Shviro
, András Paszternák
, David Zitoun

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

We have demonstrated that designed reactive organometallic precursors could be decomposed to form metallic coatings on almost any substrate with unique control. This approach allows direct synthesis on any substrate, with the use of standard coating equipment such as spin coating. The synthetic pathway has been very successful with copper and nickel alloys and compounds, together with the discovery of enhanced electronic properties (magnetic moment, anisotropy, plasmon). These complex materials are now studied as catalyst layers in electrocatalysis of H 2 oxidation and O 2 reduction in fuel cells. M. Shviro and D. Zitoun * Nanoscale 2012 , 4, 762-767 M. Shviro and D. Zitoun * RSC Adv., 2013 , 3 (5), 1380 - 1387 M. Shviro, A. Paszternák, A. Chelly, D. Zitoun * J. Nano. Res. 2013 , 15, 1823

Original language	American English
Article number	811
Pages (from-to)	811-811
Number of pages	1
Journal	ECS Meeting Abstracts
Volume	MA2014-02
Issue number	15
DOIs	https://doi.org/10.1149/ma2014-02/15/811
State	Published - 2014

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title = "Organometallic Deposition of Nickel: An Electroless Route to Nanoscale Films",

abstract = " We have demonstrated that designed reactive organometallic precursors could be decomposed to form metallic coatings on almost any substrate with unique control. This approach allows direct synthesis on any substrate, with the use of standard coating equipment such as spin coating. The synthetic pathway has been very successful with copper and nickel alloys and compounds, together with the discovery of enhanced electronic properties (magnetic moment, anisotropy, plasmon). These complex materials are now studied as catalyst layers in electrocatalysis of H 2 oxidation and O 2 reduction in fuel cells. M. Shviro and D. Zitoun * Nanoscale 2012 , 4, 762-767 M. Shviro and D. Zitoun * RSC Adv., 2013 , 3 (5), 1380 - 1387 M. Shviro, A. Pasztern{\'a}k, A. Chelly, D. Zitoun * J. Nano. Res. 2013 , 15, 1823 ",

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doi = "10.1149/ma2014-02/15/811",

language = "American English",

volume = "MA2014-02",

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TY - JOUR

T1 - Organometallic Deposition of Nickel

T2 - An Electroless Route to Nanoscale Films

AU - Shviro, Meital

AU - Paszternák, András

AU - Zitoun, David

PY - 2014

Y1 - 2014

N2 - We have demonstrated that designed reactive organometallic precursors could be decomposed to form metallic coatings on almost any substrate with unique control. This approach allows direct synthesis on any substrate, with the use of standard coating equipment such as spin coating. The synthetic pathway has been very successful with copper and nickel alloys and compounds, together with the discovery of enhanced electronic properties (magnetic moment, anisotropy, plasmon). These complex materials are now studied as catalyst layers in electrocatalysis of H 2 oxidation and O 2 reduction in fuel cells. M. Shviro and D. Zitoun * Nanoscale 2012 , 4, 762-767 M. Shviro and D. Zitoun * RSC Adv., 2013 , 3 (5), 1380 - 1387 M. Shviro, A. Paszternák, A. Chelly, D. Zitoun * J. Nano. Res. 2013 , 15, 1823

AB - We have demonstrated that designed reactive organometallic precursors could be decomposed to form metallic coatings on almost any substrate with unique control. This approach allows direct synthesis on any substrate, with the use of standard coating equipment such as spin coating. The synthetic pathway has been very successful with copper and nickel alloys and compounds, together with the discovery of enhanced electronic properties (magnetic moment, anisotropy, plasmon). These complex materials are now studied as catalyst layers in electrocatalysis of H 2 oxidation and O 2 reduction in fuel cells. M. Shviro and D. Zitoun * Nanoscale 2012 , 4, 762-767 M. Shviro and D. Zitoun * RSC Adv., 2013 , 3 (5), 1380 - 1387 M. Shviro, A. Paszternák, A. Chelly, D. Zitoun * J. Nano. Res. 2013 , 15, 1823

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DO - 10.1149/ma2014-02/15/811

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ER -

Organometallic Deposition of Nickel: An Electroless Route to Nanoscale Films

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