Large Exciton Energy Shifts by Reversible Surface Exchange in 2D II鈥揤I Nanocrystals

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• 作者：Yang Zhou ; Fudong Wang ; William E. Buhro
• 刊名：Journal of the American Chemical Society
• 出版年：2015
• 出版时间：December 9, 2015
• 年：2015
• 卷：137
• 期：48
• 页码：15198-15208
• 全文大小：610K
• ISSN：1520-5126

文摘

Reaction of n-octylamine-passivated {CdSe[n-octylamine]_0.53卤0.06} quantum belts with anhydrous metal carboxylates M(oleate)₂ (M = Cd, Zn) results in a rapid exchange of the L-type amine passivation for Z-type M(oleate)₂ passivation. The cadmium-carboxylate derivative is determined to have the composition {CdSe[Cd(oleate)₂]_0.19卤0.02}. The morphologies and crystal structures of the quantum belts are largely unaffected by the exchange processes. Addition of n-octylamine or oleylamine to the M(oleate)₂-passivated quantum belts removes M(oleate)₂ and restores the L-type amine passivation. Analogous, reversible surface exchanges are also demonstrated for CdS quantum platelets. The absorption and emission spectra of the quantum belts and platelets are reversibly shifted to lower energy by M(oleate)₂ passivation vs amine passivation. The largest shift of 140 meV is observed for the Cd(oleate)₂-passivated CdSe quantum belts. These shifts are attributed entirely to changes in the strain states in the Zn(oleate)₂-passivated nanocrystals, whereas changes in strain states and confinement dimensions contribute roughly equally to the shifts in the Cd(oleate)₂-passivated nanocrystals. Addition of Cd(oleate)₂, which electronically couples to the nanocrystal lattices, increases the effective thickness of the belts and platelets by approximately a half of a monolayer, thus increasing the confinement dimension.