Nanostructured Inverted Organic Photovoltaic Cells

Thomas, Michael

Unknown Date

No description available.

organic photovoltaic

glancing angle deposition

bulk heterojunction

nanostructure

C60 Fullerene

Methods for modifying the physical and catalytic properties of surfaces

Flaherty, David William, 1980-

05 October 2010

Catalysts can be significantly improved by modifying their structure or composition. Simple adaptations of the physical structure of a catalyst can give rise to changes in the chemical behavior, in part, due to alterations in the coordination of active sites. Modifications in the surface or bulk composition of a material have a profound impact on the chemistry that is promoted as a result of electronic and physical factors. Optimizing these qualities may enhance the catalyst’s activity, selectivity or stability. In this dissertation, we explore the application of two distinct approaches for modifying the chemical properties of catalytically active materials. Through the use of a broad array of techniques we quantify changes in critical properties such as physical-crystallographic structure; morphology, surface area and porosity; as well as catalytic activity, selectivity and stability. First, reactive ballistic deposition of metal atoms within a low pressure gas provides a unique opportunity for synthesizing thin films of a wide variety of materials. The morphology, structure, and porosity of the resulting material can be tailored through control of the deposition angle and substrate temperature. By conducting deposition perpendicular to the surface, a film can be grown with a dense, conformal structure. On the other hand, deposition at oblique angles results in high surface area, porous films comprised of regular arrays of nanocolumnar structures. Furthermore, variations in the deposition angle allow for the inclusion of under-coordinated sites which change the chemical activity of the surface. Improvements in the activity, selectivity and stability of transition metal catalysts can be made by alloying the catalyst with a second element. The formation of molybdenum carbide decreases the strength of chemisorption on the surface, with respect to molybdenum, and improves selectivity for the dehydrogenation of formic acid. Platinum is active for the water-gas shift reaction. However, this catalyst cannot operate at low temperatures due to CO poisoning and is susceptible to deactivation due to accumulation of carbonaceous deposits. The formation of a platinum-copper near-surface alloy dramatically modifies the interactions of the surface with CO, H₂O and H₂ which can enhance the performance of this catalyst for the water-gas shift reaction. / text

Catalysis

Surface science

Physical vapor deposition

Glancing angle deposition

Alloy

Platinum

Carbide

Copper

Fabrication and Characterization of Sculptured Thin Silver Films

Gustafson, Johan

January 2013

In this work samples with silver nanocolumnar structures were successfully fabricated by glancingangle deposition. From SEM investigations of the samples it is concluded that distinct andseparated nanocolumns can be grown without pre-patterned substrates using this method (givensuitable deposition conditions). The sample that exhibits the most distinct and well separatedcolumns was modelled using HFSS with optical properties of silver in nanocolumns obtained bymeasurements on the samples grown by glancing angle deposition, thin enough to not havedeveloped columns. From numerical calculations it was shown that the unit cell arrangement of thecolumns has a large influence on the optical characteristics. It was found that a diamond-like unitcell designed as two identical square lattices shifted by half the lattice spacing in one direction and2-1/2 times the lattice spacing of the other direction gives the best and a fair agreement to theexperimental ellipsometry data. Based on this model calculations were made to determine thewavelength dependent average local current exhibited in the columns as well as the currentdensity. This study showed the occurrence of broadbanded plasmon resonances of longitudinalmode at λ=1363 nm and of transverse mode at λ=545 nm. It was also shown that the opticalcharacteristics are strongly polarization dependent as is expected for such anisotropic samples.

Glancing angle deposition

GLAD

sculptured thin films

STF

Silver thin films

nanocolumns

nanospirals

Morphology control and localized surface plasmon resonance in glancing angle deposited films

Gish, Douglas

Unknown Date

No description available.

thin film

glancing angle deposition

phi-sweep

localized surface plasmon resonance

biosensing

Disassembling glancing angle deposited films for high throughput growth scaling analysis

Siewert, Joshua M A

Unknown Date

No description available.

GLAD

glancing angle deposition

nanostructure

thin-filim

broadening

growth scaling

vertical post

nanocolumn

sonication

Electromagnetic modelling and rational design of GLAD thin films for optical applications

Leontyev, Viktor A

Unknown Date

No description available.

electromagnetic modelling

FDTD

glancing angle deposition

photonic crystal

interference filter

birefringent thin film

nanostructured materials

ENGINEERED NANOSTRUCTURED THIN FILMS FOR ENHANCED SURFACE ACOUSTIC WAVE SENSORS

Kwan, Jonathan K

Unknown Date

No description available.

GLAD

glancing angle deposition

nanostructured thin film

surface acoustic wave

SAW sensor

Morphology control and localized surface plasmon resonance in glancing angle deposited films

Gish, Douglas

11 1900

This research investigates an extension of the glancing angle deposition (GLAD) technique and a biosensing application of films produced by GLAD. The extension to GLAD, called phi-sweep (PS), improves column isolation compared to films grown by traditional GLAD (TG) as well as modifies the column tilt angle, , of the slanted columns according to tan(_{PS}) = tan(_{TG}) cos(), where is the sweep angle. The biosensing application makes use of localized surface plasmon resonance in noble metal GLAD films functionalized with rabbit immunoglobulin G (rIgG) to detect binding of anti-rabbit immunoglobulin G (anti-rIgG) to the films' surface. The extinction peak red-shifts a distance dependent on the concentration of anti-rIgG solution in a manner described by the Langmuir isotherm with a saturation value, _{max}, of 29.4 0.7 nm and a surface confined thermodynamic binding constant, K, of (2.7 0.3)10 M. / Microsystems and Nanodevices

thin film

glancing angle deposition

phi-sweep

localized surface plasmon resonance

biosensing

Nanopatterning of Phase Change Material Ge2SbTe5 towards Novel and Improved Reconfigurable Photonic Devices

Burrow, Joshua A.

January 2021

No description available.

Optics

Physics

Nucleation and Growth, Defect Structure, and Dynamical Behavior of Nanostructured Materials

Hubartt, Bradley C.

January 2014

No description available.

Physics

Condensed Matter Physics