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Luminescent properties of solution-grown ZnO nanorods

Applied Physics Letters

Hsu, Julia W.; Tallant, David T.; Simpson, Regina L.; Missert, Nancy A.; Copeland, Robert G.

The optical properties of solution-grown ZnO nanorods were investigated using photolumincscence and cathodoluminescence. The as-grown nanorods displayed a broad yellow-orange sub-band-gap luminescence and a small near-band-gap emission peak. The sub-band-gap luminescence can only be observed when exciting above band gap. Scanning cathodoluminescence experiments showed that the width of the sub-band-gap luminescence is not due to an ensemble effect. Upon reduction, the sub-band-gap luminescence disappeared and the near-band-gap emission increased. Compared to ZnO powders that are stoichiometric and oxygen deficient, we conclude that the yellow-orange sub-band-gap luminescence most likely arises from bulk defects that, are associated with excess oxygen. © 2006 American Institute of Physics.

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Additive patterning of conductors and superconductors by solution stamping nanolithography

Proposed for publication in Small.

Clem, Paul G.; Chang, Nolanne A.; Hsu, Julia W.; Richardson, Jacob J.; Richardson, Jacob J.

Solution stamping nanolithography (SSNL) was used to print patterns of metallic copper and high-temperature-superconducting YBa{sub 2}Cu{sub 3}O{sub 7}. SSNL combines soft lithography and chemical-solution deposition to achieve direct printing of inorganic materials. The size of the printed patterns is determined by both the stamp feature size and the wetting properties of the solution.

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Improving organic/electrode interface in organic light-emitting diodes by soft contact lamination

Proposed for publication in Journal of Nanoengineering and Nanosystems.

Hsu, Julia W.

Organic light-emitting diodes (OLEDs), with few exvceptions, are fabricated in the standard way of sequentially depositing active layers and elecrodes onto a substrate. The conventional devices have 'a detrimental layer' at the interface between the organic and the top metal electrode because evaporation results in metal in-diffusion and chemical disruption at the metal-organic interface, Here, a different approach is introduced to construct OLEDs: soft contact lamination (SCL) is based on thysical lamination of thin metal electrodes supported by an elastomeric layer against the electrolumnescent organic layer. Thei method produces spatially homogeneous, intimate contacts via van der Waals interaction between the metal and the organic, resulting in no chemical and physical damages to the organic. Devices fabricated by SCL are shown to have no detrimental layer and fewer luminescence-quenching channels than conventional devices that have evaporated top metal electrodes.

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Ballistic electron emission microscopy studies of Au/molecule/n-GaAs diodes

Proposed for publication in Nano Letters.

Talin, A.A.; Leonard, Francois L.; Faleev, Sergey V.; Hsu, Julia W.

We present nanometer-scale resolution, ballistic electron emission microscopy (BEEM) studies of Au/octanedithiol/n-GaAs (001) diodes. The presence of the molecule dramatically increases the BEEM threshold voltage and displays an unusual transport signature as compared to reference Au/GaAs diodes. Furthermore, BEEM images indicate laterally inhomogeneous interfacial structure. We present calculations that address the role of the molecular layer at the interface. Our results indicate that spatially resolved measurements add new insight to studies using conventional spatial-averaging techniques.

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Directed spatial organization of zinc oxide nanorods

Proposed for publication in Nature Materials.

Hsu, Julia W.; Simmons, Neil C.; Voigt, James A.

The ability to precisely place nanomaterials at predetermined locations is necessary for realizing applications using these new materials. Using an organic template, we demonstrate directed growth of zinc oxide (ZnO) nanorods on silver films from aqueous solution. Spatial organization of ZnO nanorods in prescribed arbitrary patterns was achieved, with unprecedented control in selectivity, crystal orientation, and nucleation density. Surprisingly, we found that caboxylate endgroups of {omega}-alkanethiol molecules strongly inhibit ZnO nucleation. The mechanism for this observed selectivity is discussed.

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Results 51–68 of 68
Results 51–68 of 68