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Separating the ferromagnetic and glassy behavior within the metal-organic magnet Ni(TCNQ)2 (2015)
Journal Article
Berlie, A., Terry, I., Szablewski, M., & Giblin, S. (2015). Separating the ferromagnetic and glassy behavior within the metal-organic magnet Ni(TCNQ)2. Physical review B, 92(18), Article 184431. https://doi.org/10.1103/physrevb.92.184431

An in-depth study of the metal-organic magnet Ni(TCNQ)2 was conducted where the deuterated form was synthesised both to attempt to alter the magnetic properties of the material and to be advantageous in techniques such as neutron scattering and muon... Read More about Separating the ferromagnetic and glassy behavior within the metal-organic magnet Ni(TCNQ)2.

Tactile sensing in human–computer interfaces: The inclusion of pressure sensitivity as a third dimension of user input (2015)
Journal Article
Dempsey, S. J., Szablewski, M., & Atkinson, D. (2015). Tactile sensing in human–computer interfaces: The inclusion of pressure sensitivity as a third dimension of user input. Sensors and Actuators A: Physical, 232, 229-250. https://doi.org/10.1016/j.sna.2015.05.025

This paper presents a review of tactile technologies for human–computer interactivity via touch interfaces, where touch force is measured as a third dimension of user input along with touch location. Until recently, tactile technologies for computing... Read More about Tactile sensing in human–computer interfaces: The inclusion of pressure sensitivity as a third dimension of user input.

Printable, Transparent Force Sensing Resistive Materials for Touchscreen Applications (2015)
Journal Article
Dempsey, S., Szablewski, M., Bloor, D., & Atkinson, D. (2015). Printable, Transparent Force Sensing Resistive Materials for Touchscreen Applications. Key Engineering Materials, 644, 120-124. https://doi.org/10.4028/www.scientific.net/KEM.644.120

A transparent, force sensing resistive ink suitable for touchscreen technology is presented, which is capable of detecting both touch location and the applied force. The force sensing behavior is realized by a screen-printed ink layer which consists... Read More about Printable, Transparent Force Sensing Resistive Materials for Touchscreen Applications.