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Iridium(III) in Optoelectronic and Photonics Applications, 2 Volume Set

By: Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by) , Eli Zysman-Colman (Edited by)

Extended Catalogue

Ksh 62,700.00

Format: Hardback or Cased Book

ISBN-10: 1119007135

ISBN-13: 9781119007135

Publisher: John Wiley & Sons Inc

Imprint: John Wiley & Sons Inc

Country of Manufacture: MY

Country of Publication: GB

Publication Date: May 5th, 2017

Publication Status: Active

Product extent: 736 Pages

Weight: 1792.00 grams

Dimensions (height x width x thickness): 26.20 x 18.20 x 5.60 cms

Product Classification / Subject(s): Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics
Applied optics

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The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.
The fundamental photophysical properties of iridium(III) materials make this class of materials the pre-eminent transition metal complex for use in optoelectronic applications.

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