Demonstration of Bulk Semiconductor Optical Properties in Processable Ag₂S and EuS Nanocrystalline Systems

Abstract: Semiconductor nanocrystals (NCs) are colloidal single crystals that have been widely examined in recent years to elucidate the origins and applications of size-tunable properties. Size-tunable optical properties are particularly desirable for applications in light-emitting devices, lasers, and biological labeling. [1][2][3][4][5] Strong confinement effects, characteristic of many NCs (''quantum dots''), give them an electronic structure more like molecules than semiconductors and this is of special interest in… Show more

“…Band gap energies for all YVO 4 nanoparticles were calculated on the basis of their diffuse reflectance spectra. For an idealized parabolic band bulk semiconductor with allowed transitions, the optical absorption edge can be fit with the Tauc equation 3, [31] …”

Control Over the Crystallinity and Defect Chemistry of YVO₄ Nanocrystals for Optimum Photocatalytic Property

“…Band gap energies for all YVO 4 nanoparticles were calculated on the basis of their diffuse reflectance spectra. For an idealized parabolic band bulk semiconductor with allowed transitions, the optical absorption edge can be fit with the Tauc equation 3, [31] …”

Control Over the Crystallinity and Defect Chemistry of YVO₄ Nanocrystals for Optimum Photocatalytic Property

“…As we reported recently, such a semiconductor material is EuS, which should exhibit bulk behavior on the nanoscale according to the estimated electron and the hole Bohr radii, which are less than 1 nm. [62] Nanocrystalline EuS has been the subject of ongoing experimental and theoretical investigation because of its interesting magnetic properties. [63][64][65] EuS exhibits ferromagnetic behavior with a Curie temperature of 16 K and is a candidate model system for demonstrating spintronics or optoelectronic phenomena.…”

“…[63] In fact, it is a band characteristic of bulk EuS originating from electron excitation from localized Eu 2þ 4f 7 orbitals to the lower 5d conduction sub-band (the conduction band is split into this lower and an upper sub-band by the crystal field splitting of 2.1 eV). [62] This is an example of how a feature-rich bulk band structure can contribute bands to the optical absorption of nanocrystals. Adopting such a strategy in conjunction with confinement effects might have interesting consequences.…”

Controlling the Optical Properties of Inorganic Nanoparticles

“…[19,20] The optical properties of the EuX NCs were rarely reported. Though it has been acknowledged that bulk EuX does not exhibit luminescence at room temperature, [21,22] while surfacemodified EuO and EuS exhibited characteristic luminescence under UV excitation. [23,24] No luminescent EuSe NCs have been documented.…”

A Simple Reducing Approach Using Amine To Give Dual Functional EuSe Nanocrystals and Morphological Tuning