Professor Buddhika Mendis' Outputs (4)

Novel synthesis and properties of hydrogen-free detonation nanodiamond (2018)
Journal Article
Batsanov, S. S., Osavchuk, A. N., Naumov, S. P., Gavrilkin, S. M., Leskov, A. S., Mendis, B. G., Beeby, A., & Batsanov, A. S. (2018). Novel synthesis and properties of hydrogen-free detonation nanodiamond. Materials Chemistry and Physics: Including Materials Science Communications, 216, 120-129. https://doi.org/10.1016/j.matchemphys.2018.05.072

Practically hydrogen-free nanodiamond (HFND), a prospective neutron-optical material, was prepared (in up to 3% yield) by detonating pure or graphite-doped RDX in an ice shell and comprehensively characterized by elemental analysis, X-ray diffraction... Read More about Novel synthesis and properties of hydrogen-free detonation nanodiamond.

Simple and scalable route for the 'bottom-up' synthesis of few-layer graphene platelets and thin films (2011)
Journal Article
Herron, C., Coleman, K., Edwards, R., & Mendis, B. (2011). Simple and scalable route for the 'bottom-up' synthesis of few-layer graphene platelets and thin films. Journal of materials chemistry, 21(10), 3378-3383. https://doi.org/10.1039/c0jm03437a

Stable Polymorphs Crystallized Directly under Thermodynamic Control in Three-Dimensional Nanoconfinement: A Generic Methodology (2011)
Journal Article
Nicholson, C., Chen, C., Mendis, B., & Cooper, S. (2011). Stable Polymorphs Crystallized Directly under Thermodynamic Control in Three-Dimensional Nanoconfinement: A Generic Methodology. Crystal Growth and Design, 11(2), 363-366. https://doi.org/10.1021/cg101200f

Thermodynamic control of crystallization has been achieved to produce stable polymorphs directly by using three-dimensional (3D) nanoconfinement in microemulsions. The theoretical basis for thermodynamic control of crystallization using 3D nanoconfin... Read More about Stable Polymorphs Crystallized Directly under Thermodynamic Control in Three-Dimensional Nanoconfinement: A Generic Methodology.

Preparation, Characterization, and Structural Phase Transitions in a New Family of Semiconducting Transition Metal Oxychalcogenides beta-La(2)O(2)MSe(2) (M = Mn, Fe) (2010)
Journal Article
McCabe, E., Free, D., Mendis, B., Higgins, J., & Evans, J. (2010). Preparation, Characterization, and Structural Phase Transitions in a New Family of Semiconducting Transition Metal Oxychalcogenides beta-La(2)O(2)MSe(2) (M = Mn, Fe). Chemistry of Materials, 22(22), 6171-6182. https://doi.org/10.1021/cm1023103