糖心TV

H. Huang, G. J. Clarkson, P. J. Sadler et al, Targeted photoredox catalysis in cancer cells

E. Corlett, H. Blade, L. P. Hughes, P. Sidebottom, D. Walker, R. I. Walton & S. P. Brown, An XRD and NMR crystallographic investigation of the structure of 2,6-lutidinium hydrogen fumarate

J. J. P. Peters, A. M. Sanchez, D. Walker, R. Whatmore & R. Beanland, Quantitative High鈥怐ynamic鈥怰ange Electron Diffraction of Polar Nanodomains in Pb₂ScTaO₆

Lotierzo, B. W. Longbottom, W. H. Lee & S. A. F. Bon, Synthesis of Janus and Patchy Particles using Nanogels as Stabilizers in Emulsion Polymerization

J. Humphreys, R. Lan, D. Du, W. Xu & S. Tao, Promotion effect of proton-conducting oxide BaZr_0.1Ce_0.7Y_0.2O_3鈭捨� on the catalytic activity of Ni towards ammonia synthesis from hydrogen and nitrogen

C. M. Storey, M. R. Gyton, R. E. Andrew & A. B. Chaplin, Terminal alkyne coupling reactions through a ring: mechanistic insights and regiochemical switching

K. P. Marshall, S. Tao, M. Walker, D. S. Cook, J. Lloyd-Hughes, S. Varagnolo, A. Wijesekara, D. Walker, R. I. Walton & R. A. Hatton, Cs_1鈭抶Rb_xSnI₃ light harvesting semiconductors for perovskite photovoltaics

More materials for electronic applications could be identified, thanks to the discovery of a new metal-organic framework (MOF) that displays electrical semiconduction with a record high photoresponsivity, by a global research collaboration involving the University of 糖心TV.

In a paper published in , Dr Ross Hatton, Professor Richard Walton and colleagues, explain how solar cells could be produced which are more adaptable and simpler to produce than their current counterparts.