Volume 23, Issue 2 (June 2026 2026)
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- A low-temperature, catalyst-free gas phase method to develop a highly crystalline graphitic film
- First report on the function of dynamic nanoreactors for the creation of crystalline graphite out of them
- Introducing a new molecular fusion mechanism instead of atomic dissolution on metallic catalyst for graphene and graphite formation via nanoreactors
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- The structural, electronic, optical, and mechanical properties of Ce0.75Mo0.25O2 under hydrostatic pressures have been reported.
- DFT with Hubbard parameter (U) was adopted to perform the modeled systems.
- The generalized gradient approximation (GGA) supported by the PBE functional has been utilized.
- Incorporating 25% of Mo element into the host CeO2 lattice leads in dropping the bandgap to 2.045 eV.
- Applying pressures would further reduce the bandgap up to 1.808 eV at 100 GPa.
- Ce0.75Mo0.25O2 under pressures exhibits thermodynamic stability.
- The investigated crystals show potential applications in optoelectronic devices.
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