Journal
MATERIALS CHEMISTRY FRONTIERS
Volume 5, Issue 20, Pages 7654-7665Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1qm00829c
Keywords
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Funding
- SERB, DST, Government of India [EMR/2017/002971]
- IoE, the University of Hyderabad [RC1-20-007]
- UGC, New Delhi, India
- DST-INSPIRE, New Delhi, India
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Research has shown that encapsulating fullerene C-60 inside zeolitic imidazolate framework-8 can act as a catalyst for the oxygen reduction reaction, with significant interactions between the host ZIF-8 and guest C-60 modifying the electrochemical behavior of C-60. Mono-confinement of C-60 inside ZIF-8 also effectively maintains its dilute solution-like behavior and enhances its electrochemical performance.
Metal-organic frameworks (MOFs) with intrinsic electrochemical activity have received significant attention in the last two decades, mainly because of the high density of physically separated active sites. Yet, the potential of chemical tunability, spatial confinement and scope of heterogenization in the electrochemically inactive MOFs have been less explored. Here, we have shown that fullerene C-60, well-known for its rich reductive electrochemistry, when encapsulated inside zeolitic imidazolate framework-8 (ZIF-8) to prepare a heterogeneous composite (C(60)Z), can act as a catalyst for the oxygen reduction reaction (ORR) at a lower overpotential with better selectivity than bare C-60 per se. Spectroscopic and electrochemical characterization methods prove significant interactions between the ZIF-8 host and the C-60 guest, which results in the modification of the electrochemical behavior of C-60 inside ZIF-8 and thereby causes an enhanced electrochemical ORR performance of the guest. The mono-confinement of C-60 inside ZIF-8 also results in spatial separation of C-60 molecules, which is highly effective for preserving its dilute solution-like behavior in solid-state inside the framework matrix. Furthermore, we have explored the scope of device processability of this solid-state analogue of dilute C-60 solution i.e., C(60)Z, by its fabrication into a polymer membrane (C(60)Z-PVA thin film) which could retain the physical properties of the C(60)Z.
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