Precursors for Atmospheric Plasma-Enhanced Sintering: Low-Temperature Inkjet Printing of Conductive Copper

Caroline E. Knapp; Elizabeth A. Metcalf; Shreya Mrig; Clara Sanchez-Perez; Samuel P. Douglas; Patrick Choquet; Nicolas D. Boscher

Journal ArticleOPEN ACCESS

Precursors for Atmospheric Plasma-Enhanced Sintering: Low-Temperature Inkjet Printing of Conductive Copper

ChemistryOpen (2018) 7(11) 850-857

DOI: 10.1002/open.201800131

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Abstract

Bidentate diamine and amino-alcohol ligands have been used to form solid, water-soluble, and air-stable monomeric copper complexes of the type [Cu(NH2CH2CH(R)Y)2(NO3)2] (1, R=H, Y=NH2; 2, R=H, Y=OH; 3, R=Me, Y=OH). The complexes were characterized by elemental analysis, mass spectrometry, infrared spectroscopy, thermal gravimetric analysis, and single-crystal X-ray diffraction. Irrespective of their decomposition temperature, precursors 1–3 yield highly conductive copper features [1.5×10−6 Ω m (±5×10−7 Ω m)] upon atmospheric-pressure plasma-enhanced sintering.

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Knapp, C. E., Metcalf, E. A., Mrig, S., Sanchez-Perez, C., Douglas, S. P., Choquet, P., & Boscher, N. D. (2018). Precursors for Atmospheric Plasma-Enhanced Sintering: Low-Temperature Inkjet Printing of Conductive Copper. ChemistryOpen, 7(11), 850–857. https://doi.org/10.1002/open.201800131

Precursors for Atmospheric Plasma-Enhanced Sintering: Low-Temperature Inkjet Printing of Conductive Copper

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