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@article{2397278, author = {Rafailović, Lidija D. and Trišović, Tomislav and Stupavská, Monika and Souček, Pavel and Velicsanyi, Peter and Nixon, Sonja and Elbataioui, Adam and Zak, Stanislav and Cordill, Megan J. and Hohenwarter, Anton and Kleber, Christoph and Ráheľ, Jozef}, article_number = {July 2024}, doi = {http://dx.doi.org/10.1016/j.jallcom.2024.174569}, keywords = {Composite materials; Air plasma etching; Nanofabrications; In-situ SEM impedance; Selective metallization; Cu microstructure}, language = {eng}, issn = {0925-8388}, journal = {Journal of Alloys and Compounds}, title = {Selective Cu electroplating enabled by surface patterning and enhanced conductivity of carbon fiber reinforced polymers upon air plasma etching}, url = {https://www.sciencedirect.com/science/article/pii/S0925838824011563}, volume = {992}, year = {2024} }
TY - JOUR ID - 2397278 AU - Rafailović, Lidija D. - Trišović, Tomislav - Stupavská, Monika - Souček, Pavel - Velicsanyi, Peter - Nixon, Sonja - Elbataioui, Adam - Zak, Stanislav - Cordill, Megan J. - Hohenwarter, Anton - Kleber, Christoph - Ráheľ, Jozef PY - 2024 TI - Selective Cu electroplating enabled by surface patterning and enhanced conductivity of carbon fiber reinforced polymers upon air plasma etching JF - Journal of Alloys and Compounds VL - 992 IS - July 2024 SP - 1-11 EP - 1-11 PB - Elsevier B.V. SN - 09258388 KW - Composite materials KW - Air plasma etching KW - Nanofabrications KW - In-situ SEM impedance KW - Selective metallization KW - Cu microstructure UR - https://www.sciencedirect.com/science/article/pii/S0925838824011563 N2 - We demonstrate a sustainable post-processing of carbon fiber reinforced epoxy polymer (CFRP) composites by air plasma etching that permits regular electroconductive surface patterning through direct Cu galvanic metallization, in contrast to the untreated composite. Our study reveals a significant property dependence of the composite with respect to the position to the fiber/matrix composite surface and treatment. The enhancement in electrical conductivity was not compromised by the lower structural integrity of the composite, as the embedded carbon fibers remained unaffected by the air plasma etching process. The metallized Cu domains on the composite exhibit good hardness and excellent solderability potential. Thus, the electroconductive surface patterning of the composite, preceding galvanic metallization, facilitates the selective deposition of Cu layer domains. This step by step process, relying on the creation of selective electroconductive areas on the composite by plasma etching, enables galvanic metallization. Consequently, it enhances the potential for multifunctional composite applications. The feasibility of galvanic metallization brings new perspectives in selective metallization of composites by allowing the tailoring of the metal layer thickness, microstructure and selection of the metal. ER -
RAFAILOVI$\backslash$'C, Lidija D., Tomislav TRIŠOVI$\backslash$'C, Monika STUPAVSKÁ, Pavel SOUČEK, Peter VELICSANYI, Sonja NIXON, Adam ELBATAIOUI, Stanislav ZAK, Megan J. CORDILL, Anton HOHENWARTER, Christoph KLEBER a Jozef RÁHEĽ. Selective Cu electroplating enabled by surface patterning and enhanced conductivity of carbon fiber reinforced polymers upon air plasma etching. \textit{Journal of Alloys and Compounds}. Elsevier B.V., 2024, roč.~992, July 2024, s.~1-11. ISSN~0925-8388. Dostupné z: https://dx.doi.org/10.1016/j.jallcom.2024.174569.
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