Whitaker, Kelly M.Ochsenbein, Stefan T.Smith, Alyssa L.Echodu, Dorothy C.Robinson, Bruce H.Gamelin, Daniel R.2022-11-202022-11-202010Whitaker, K. M., Ochsenbein, S. T., Smith, A. L., Echodu, D. C., Robinson, B. H., & Gamelin, D. R. (2010). Hyperfine coupling in colloidal n-type ZnO quantum dots: effects on electron spin relaxation. The Journal of Physical Chemistry C, 114(34), 14467-14472. Doi: 10.1021/jp106356y10.1021/jp106356yhttps://nru.uncst.go.ug/handle/123456789/5344Colloidal semiconductor nanocrystals are excellent systems for exploring the fundamental properties of quantum-confined charge carriers. Tremendous progress has already been made in understanding the properties of electron-hole pairs (excitons) confined in colloidal quantum dots (QDs) using optical spectroscopic techniques.1-6 In contrast with charge carriers in QD electronic excited states, the properties of QDs containing excess carriers in their ground states have received substantially less attention.7-19 To date, the primary experimental probe of such charged QDs has been electronic absorption spectroscopy, in which low-energy intraband excitations can be used to define the carrier wave function.enHyperfine CouplingColloidal n-Type ZnO Quantum DotsElectron Spin RelaxationArticle