{{Short description|Quantum dot nanocrystal equation}} The '''Brus equation''' or '''confinement energy equation''' can be used to describe the emission energy of quantum dot semiconductor nanocrystals in terms of the band gap energy ''E''<sub>gap</sub>, the Planck constant ''h'', the radius of the quantum dot ''r'', as well as the effective mass of the excited electron ''m''<sub>e</sub>* and of the excited hole ''m''<sub>h</sub>*. <ref>{{Cite book |last=Linke |first=Heiner |title=Quantum dots – Seeds of Nanoscience |publisher=The Royal Swedish Academy of Sciences |year=2023}}</ref> The equation was named after Louis E. Brus, who discovered it in 1986.<ref>{{cite journal |last=Brus |first=L |year=1986 |title=Electronic Wave Functions in Semiconductor Clusters: Experiment and Theory |journal=The Journal of Physical Chemistry |volume=90 |issue=12 |pages=2555–2560 |doi=10.1021/j100403a003}}</ref>

The radius of the quantum dot affects the wavelength of the emitted light due to quantum confinement, and this equation describes the effect of changing the radius of the quantum dot on the wavelength ''λ'' of the emitted light (and thereby on the emission energy {{nowrap|1=Δ''E'' = ''hc''/''λ''}}, where ''c'' is the speed of light). This is useful for calculating the radius of a quantum dot from experimentally determined parameters.

The overall equation is<ref>{{cite journal|last=Kippeny|first=T |title=Semiconductor Nanocrystals: A Powerful Visual Aid for Introducing the Particle in a Box|author2=Swafford, L.A. |author3=Rosenthal, S.A.|journal=Journal of Chemical Education|year=2002|volume=79|issue=9|pages=1094–1100|bibcode = 2002JChEd..79.1094K |doi = 10.1021/ed079p1094 }}</ref> : <math>\Delta E(r) = E_\mathrm{gap} + \frac{h^2}{8r^2} \left(1/m_\mathrm{e}^* + 1/m_\mathrm{h}^*\right) .</math>

''E''<sub>gap</sub>, ''m''<sub>e</sub>*, and ''m''<sub>h</sub>* are unique for each nanocrystal composition. For example, with cadmium selenide (CdSe) nanocrystals: : ''E''<sub>gap</sub> (CdSe) = {{val|1.74|ul=eV}} = {{val|2.8|e=−19|u=J}}, : ''m''<sub>e</sub>* (CdSe) = 0.13&nbsp;''m''<sub>e</sub> = {{val|1.18|e=−31|u=kg}}, : ''m''<sub>h</sub>* (CdSe) = 0.45&nbsp;''m''<sub>e</sub> = {{val|4.10|e=−31|u=kg}}.

== References == {{reflist}}

Category:Quantum dots Category:Nanoparticles Category:Quantum electronics