Templated synthesis of multi-hierarchical layered double hydroxide microspheres †

Kondratowicz, T; Besnard, C; Turner, Z; Tan, J; Chen, C; Turnell-Ritson, R; O'Hare, D

Journal article

Templated synthesis of multi-hierarchical layered double hydroxide microspheres †

Abstract:: Herein, we report a green, scalable and cost-effective synthesis of microspherical Mg/Al–CO3 LDHs with an average particle size and size distribution of 34 ± 6 μm with a multi-hierarchical morphology. The microspheres are composed of crystalline 300 nm thick Mg2.25±0.025Al–CO3 LDH platelets that are radially oriented into a hierarchical spherical motif. The LDH microspheres were synthesised via a hydrothermal reaction of NaAlO2 with flower-like MgO microspheres which serve as both a structural template and a magnesium source. Our optimised synthesis conditions allow a uniformly dispersed phase pure LDH formation within 2 h at 80 °C. Comprehensive characterisation, including XRD, FT-IR, TGA, FIB-SEM, N2 adsorption–desorption measurement, and CO2-TPD, revealed that the obtained LDH microspheres exhibit a high specific surface area, total pore volume and basicity number. Our time-resolved studies provided further insights into the kinetics, structure evolution and crystallinity changes during the transformation process. These multi-hierarchical LDH microspheres can be calcined to produce multi-hierarchical layered double oxide (LDO) microspheres that demonstrate an exceptional CO2 capture performance of 0.95 mmol g−1 (1 atm, 40 °C) and an adsorption capacity 2.8 times higher than that of flower-like MgO and 32 times higher than that of commercial MgO. This study highlights the potential for an atom-efficient templated synthesis of multi-hierarchical, porous LDH microspheres and their application in catalysis and sorption.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Kondratowicz, T., Besnard, C., Turner, Z., Tan, J., Chen, C., Turnell-Ritson, R., & O'Hare, D. (2025). Templated synthesis of multi-hierarchical layered double hydroxide microspheres †. Journal of Materials Chemistry A: Materials for Energy and Sustainability.

MLA Style

Kondratowicz, T., et al. “Templated Synthesis of Multi-Hierarchical Layered Double Hydroxide Microspheres †.” Journal of Materials Chemistry A: Materials for Energy and Sustainability, Royal Society of Chemistry, 2025.

Chicago Style

Kondratowicz, T, C Besnard, Z Turner, J Tan, C Chen, R Turnell-Ritson, and D O'Hare. 2025. “Templated Synthesis of Multi-Hierarchical Layered Double Hydroxide Microspheres †.” Journal of Materials Chemistry A: Materials for Energy and Sustainability.
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