Surface Coordination Layer to Enhance the Stability of Plasmonic Cu Nanoparticles

Qi, Shaopeng; Liu, Guoning; Chen, Jinxi; Lou, Yongbing; Zhao, Yixin

doi:10.1021/acs.jpcc.1c09263

J. Phys. Chem. C

2021

DOI: 10.1021/acs.jpcc.1c09263

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Surface Coordination Layer to Enhance the Stability of Plasmonic Cu Nanoparticles

Shaopeng Qi

Guoning Liu

Jinxi Chen

et al.

Abstract: The fast oxidation of plasmonic Cu nanomaterials caused by surface-absorbed oxygen has been a serious problem and has hindered their applications in many aspects. Herein, a lollipop-shaped Cu@Cu2O/ZnO heterojunction with a core–shell head and a rodlike stem was successfully prepared using the colloidal chemical method, which exhibits ultralong-term stability against air oxidation in hexane. The enhanced stability of Cu@Cu2O/ZnO was due to the presence of zinc acetate, which resulted in the crystal face reconst… Show more

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Cited by 3 publications

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“…Recently, numerous attempts have been reported as an alternative thermal sintering method. One effective technique is protecting and stabilizing Cu-NP by applying a protective coating 14,15 or using a thin noble metal in a core-shell structure 16,17 . The Cu precursor can also be sintered using high-power flash lamps, which can easily be integrated into massive production lines [18][19][20][21] .…”

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Copper laser patterning on a flexible substrate using a cost-effective 3D printer

Chakraborty

Park

Ahn

2022

Sci Rep

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We studied the cost effective direct laser patterning of copper (Cu) on thin polyimide substrates (PI thickness: 12.5–50 µm) using a 405 nm laser module attached to an inexpensive 3D printer. The focal length of the laser was intentionally controlled to reduce defects on patterned Cu and surface damage of PI under predetermined process conditions. The appropriate focal length was examined at various focal distances. Focal distances of − 2.4 mm and 3 mm were found for the shorter focal length (SFL) and longer focal length (LFL), respectively, compared to the actual focal length. This resulted in clean Cu line patterns without line defects. Interestingly, the SFL case had a different Cu growth pattern to that of LFL, indicating that the small difference in the laser incident angle could affect Cu precursor sintering. Cu square patterns had a lower resistivity of 70 μΩ·cm for an LFL after three or four laser scans, while the SFL showed a resistivity below 48 μΩ·cm for a one-time laser scan. The residues of the Cu precursor on PI were easily removed with flowing water and normal surfactants. However, the resistivity of the patterns decreased after cleaning. Among the scan gaps, the Cu square pattern formed at a 70 μm scan gap had the lowest sheet resistance and the least change in resistance from around 4 to 4.4 Ω/ϒ after cleaning. This result implies that the adhesion of the patterned Cu could be improved if the coated Cu precursor was well sintered under the proper process conditions. For the application of this method to bioelectronics, including biosensors, LEDs were connected to the Cu patterns on PI attached to the arm skin and worked well, even when the substrate PI was bent during power connecting.

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confidence: 99%

Copper laser patterning on a flexible substrate using a cost-effective 3D printer

Chakraborty

Park

Ahn

2022

Sci Rep

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Hydrothermal carbon modified Cu–Fe oxide with enhanced Fe(II)/Fe(III) cycle to activate peroxydisulfate for phenol removal

Fan

Liu

Wang

et al. 2022

J Sol-Gel Sci Technol

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Recent advances in protective technologies against copper corrosion

She,

Peng,

Qiang

et al. 2024

Journal of Materials Science & Technology

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Surface Coordination Layer to Enhance the Stability of Plasmonic Cu Nanoparticles

Cited by 3 publications

References 36 publications

Copper laser patterning on a flexible substrate using a cost-effective 3D printer

Copper laser patterning on a flexible substrate using a cost-effective 3D printer

Hydrothermal carbon modified Cu–Fe oxide with enhanced Fe(II)/Fe(III) cycle to activate peroxydisulfate for phenol removal

Recent advances in protective technologies against copper corrosion

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