Tunable Structure and Properties of Co-Evaporated Co–C60 Nanocomposite Films
Ziyang Gu, Yiting Gao, Zhou Li, Weihang Zou, Keming Li, Huan Xu, Zhu Xiao, Mei Fang

TL;DR
This paper introduces a method to create magnetic composite films with tunable properties for spintronic devices.
Contribution
A thermal co-evaporation technique is developed to control composition and structure of Co–C60 nanocomposite films for spintronic applications.
Findings
Co–C60 composite films with a 5:1 ratio show increased coercivity due to interface effects.
Higher C60 ratios lead to nano-organic spin valves with giant magnetoresistance.
The method allows precise tuning of film properties for spintronic device applications.
Abstract
Magnetic nanoparticles (NPs) hold great promise for both fundamental research and future applications due to their unique structural features, high specific surface area, and tailored physical properties. Here, we present a convenient thermal co-evaporation approach to deposit Co–C60 composite films with controlled composition, structure, morphology, and tunable performances, specifically designed for spintronic device applications. By tuning the growth rates of Co and C60 during co-evaporation, the composition of the films can be tuned with different ratios. With a Co/C60 ratio of 5:1, ~300 nm clusters are formed in the films with increased coercivity compared with pure Co films, which is attributed to the interfaces in the composite film. The magnetoresistance (MR), however, becomes dominated by organic semiconductor C60 with ordinary magnetoresistance (OMAR). By increasing the…
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Taxonomy
TopicsFullerene Chemistry and Applications · Quantum Dots Synthesis And Properties · Diamond and Carbon-based Materials Research
