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Flexibility in MOFs: Do scalar and group-theoretical counting rules work? (2015)
Journal Article
Marmier, A., & Evans, K. E. (2016). Flexibility in MOFs: Do scalar and group-theoretical counting rules work?. Dalton Transactions, 45(10), 4360-4369. https://doi.org/10.1039/c5dt03586d

© The Royal Society of Chemistry 2016. We investigate the ability of counting rules drafted from engineering to predict the flexibility or rigidity of bar-and-joint or body-and-joint assemblies representing metal organic frameworks. We show that whil... Read More about Flexibility in MOFs: Do scalar and group-theoretical counting rules work?.

A systematic typology for negative Poisson's ratio materials and the prediction of complete auxeticity in pure silica zeolite JST (2015)
Journal Article
Siddorn, M., Coudert, F. X., Evans, K. E., & Marmier, A. (2015). A systematic typology for negative Poisson's ratio materials and the prediction of complete auxeticity in pure silica zeolite JST. Physical Chemistry Chemical Physics, 17(27), 17927-17933. https://doi.org/10.1039/c5cp01168j

© the Owner Societies 2015. Single crystals can commonly have negative Poisson's ratio in a few directions; however more generalised auxeticity is rarer. We propose a typology to distinguish auxetic materials. We characterise numerous single crystals... Read More about A systematic typology for negative Poisson's ratio materials and the prediction of complete auxeticity in pure silica zeolite JST.

Negative linear compressibility in common materials (2015)
Journal Article
Miller, W., Evans, K. E., & Marmier, A. (2015). Negative linear compressibility in common materials. Applied Physics Letters, 106(23), Article 231903. https://doi.org/10.1063/1.4922460

© 2015 AIP Publishing LLC. Negative linear compressibility (NLC) is still considered an exotic property, only observed in a few obscure crystals. The vast majority of materials compress axially in all directions when loaded in hydrostatic compression... Read More about Negative linear compressibility in common materials.