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Professor Douglas Halliday's Outputs (3)

Polymorphism in Cu2ZnSnS4 and new off-stoichiometric crystal structure types (2017)
Journal Article
Bosson, C. J., Birch, M. T., Halliday, D. P., Tang, C. C., Kleppe, A. K., & Hatton, P. D. (2017). Polymorphism in Cu2ZnSnS4 and new off-stoichiometric crystal structure types. Chemistry of Materials, 29(22), 9829-9839. https://doi.org/10.1021/acs.chemmater.7b04010

Cu2ZnSnS4 (CZTS) is a very promising material for the absorber layer in sustainable thin-film solar cells. Its photovoltaic performance is currently limited by crystal structure disorder, which causes fluctuations in electrostatic potential that decr... Read More about Polymorphism in Cu2ZnSnS4 and new off-stoichiometric crystal structure types.

Cation disorder and phase transitions in the structurally complex solar cell material Cu2ZnSnS4 (2017)
Journal Article
Bosson, C., Birch, M., Halliday, D., Knight, K., Gibbs, A., & Hatton, P. (2017). Cation disorder and phase transitions in the structurally complex solar cell material Cu2ZnSnS4. Journal of Materials Chemistry A: materials for energy and sustainability, 5(32), 16672-16680. https://doi.org/10.1039/c7ta03603e

Cu2ZnSnS4 (CZTS) is a technologically important and complex quaternary semiconductor and a highly promising material for the absorber layer in sustainable thin film solar cells. Its photovoltaic performance is currently limited by low open-circuit vo... Read More about Cation disorder and phase transitions in the structurally complex solar cell material Cu2ZnSnS4.

Structural and optical properties of oxygen doped single crystal ZnTe grown by multi-tube physical vapour transport (2017)
Journal Article
Mullins, J., Dierre, F., Halliday, D., Tanner, B., Radley, I., Kang, Z., & Summers, C. (2017). Structural and optical properties of oxygen doped single crystal ZnTe grown by multi-tube physical vapour transport. Journal of Materials Science: Materials in Electronics, 28(16), 11950-11960. https://doi.org/10.1007/s10854-017-7004-5

Bulk single crystals of zinc telluride up to 10 mm thick have been grown by the Multi-Tube Physical Vapour Transport technique and doped, in-situ during growth, with oxygen. Following hetero-epitaxial nucleation and buffer growth on 100 mm diameter G... Read More about Structural and optical properties of oxygen doped single crystal ZnTe grown by multi-tube physical vapour transport.