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Qubit Coherence Noise Stability Characterization
Quantum Chemistry
Photonic Quantum Computing
Quantum Device Fabrication Process Engineering
Nitrogen-enriched precursor lowers debromination temperature for solid-state polymerization into high-performance lithium storage electrodes.
PubMed
Authors: Yang Y, Zhang J, Li Y, Ning M, Wu J, Ma B, Liu L, Liu W
Year
2026
Paper ID
35474
Status
Peer-reviewed
Abstract Read
~2 min
Abstract Words
48
Citations
N/A
Abstract
Doubling the number of pyridinic nitrogen atoms in the precursor markedly lowers the debromination onset temperature, enabling endogenous solid-state polymerization under mild conditions to form a robust, nitrogen-rich π-conjugated network that delivers a reversible lithium storage capacity of ∼910 mA h g at 0.1 A g with outstanding cycling stability.
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- Doubling the number of pyridinic nitrogen atoms in the precursor markedly lowers the debromination onset temperature, enabling endogenous solid-state polymerization under mild...
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