AI Article Synopsis
- Submicron-sized niobia (NbO) porous spheres were successfully synthesized using a fast, one-step alcothermal reaction, achieving a high specific surface area of 300 m²/g.
- Longer reaction times or higher temperatures led to a change in NbO shape from spheres to hexagonal rod crystals.
- A similar process produced TiO-NbO composite spheres, with their Ti:Nb ratios adjustable by altering precursor components, and heat treatment transformed them from an amorphous state to a monoclinic crystal phase.
Article Abstract
Submicron-sized niobia (NbO) porous spheres with a high specific surface area (300 m g) and nano concave-convex surfaces were synthesized a rapid one-pot single-step alcothermal reaction. Prolonged reaction time or high reaction temperatures resulted in a morphology change of NbO from amorphous sphere to rod crystals with hexagonal crystal phase. A similar alcothermal reaction yielded TiO-NbO composite porous spheres, whose Ti : Nb molar ratio was controlled by changing the precursor solution component ratios. A simple thermal treatment of amorphous TiO-NbO porous spheres consisting of 1 : 2 (molar ratio) Ti : Nb at 600 °C for 2 h induced crystal phase transfer from amorphous to a monoclinic crystal phase of submicron-sized TiNbO porous spheres with a specific surface area of 50 m g.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9051927 | PMC |
| http://dx.doi.org/10.1039/d0ra01704c | DOI Listing |
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