Oxidation of evaporated porous silicon rugate filters

Robbie, Kevin; Cui, Yan; Elliott, Chelsea; Kaminska, Kate

doi:10.1364/ao.45.008298

Cited by 13 publications

(5 citation statements)

References 14 publications

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“…While e-beam evaporation has been used for the deposition of a large variety of materials, including amorphous and crystalline semiconductors [80,86,106,139,140], metals [29,[141][142][143][144][145][146], oxides [48,79,89,[147][148][149] and even molecular materials [71,103,150], MS has been the most widely used method for the deposition of metals and oxides when control over the crystalline structure and/or surface roughness is an issue.…”

Section: Magnetron Sputteringmentioning

confidence: 99%

Perspectives on oblique angle deposition of thin films: From fundamentals to devices

Barranco

Borrás

González‐Elipe

et al. 2016

Progress in Materials Science

599

436

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a b s t r a c tThe oblique angle configuration has emerged as an invaluable tool for the deposition of nanostructured thin films. This review develops an up to date description of its principles, including the atomistic mechanisms governing film growth and nanostructuration possibilities, as well as a comprehensive description of the applications benefiting from its incorporation in actual devices. In contrast with other reviews on the subject, the electron beam assisted evaporation technique is analyzed along with other methods operating at oblique angles, including, among others, magnetron sputtering and pulsed laser or ion beam-assisted deposition techniques. To account for the existing differences between deposition in vacuum or in the presence of a plasma, mechanistic simulations are critically revised, discussing well-established paradigms such as the tangent or cosine rules, and proposing new models that explain the growth of tilted porous nanostructures. In the second part, we present an extensive description of applications wherein oblique-angle-deposited thin films are of relevance. From there, we proceed by considering the requirements of a large number of functional devices in which these films are currently being utilized (e.g., solar cells, Li batteries, electrochromic glasses, biomaterials, sensors, etc.), and subsequently describe how and why these nanostructured materials meet with these needs.

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Section: Magnetron Sputteringmentioning

confidence: 99%

Perspectives on oblique angle deposition of thin films: From fundamentals to devices

Barranco

Borrás

González‐Elipe

et al. 2016

Progress in Materials Science

599

436

View full text Add to dashboard Cite

show abstract

“…For example, the nanostructures fabricated by GLAD with different materials have been used as different chemical and biological sensors, including humidity sensors, 21,[62][63][64] plasmon sensors, 65 surface enhanced Raman sensors, [66][67][68][69][70][71][72][73][74][75][76] fluorescence sensors, 77 pressure sensors, 78 and interference optical sensors. 79 They have been extensively applied for optical coating and devices such as antireflective coating, [80][81][82] optical filters, [83][84][85][86][87][88][89][90][91][92][93] photonic crystals, 17,79,[94][95][96][97][98][99] and photoluminescent devices. [100][101][102][103][104] The electronic device applications, such as field emission devices, ...…”

Section: Introductionmentioning

confidence: 99%

Advanced multi-component nanostructures designed by dynamic shadowing growth

Zhao

2011

Nanoscale

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Dynamic shadowing growth is a simple and powerful nanofabrication technique that combines oblique angle deposition with substrate manipulation in a thin film deposition system, which mainly utilizes self-shadowing effect to form well-aligned nanorod arrays. Many unique nanostructures have been fabricated or designed by properly programming the substrate motions, deposition sources, deposition rates, and shadowing effects in multi-step shadowing growth processes. The formed nanostructures have found many promising applications such as chemical and biological sensors, energy storages, nanomotors, etc., due to their unique characteristics of well-controlled morphologies, structures, and compositions. This review is focused on the design and fabrication of both compositionally and morphologically complex nanostructure arrays by multilayer and co-deposition shadowing growth techniques, and the emphasis will be put on the design and fabrication of multi-component nanostructures with different morphologies.

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“…1 This has opened the new realm of tailoring desired physical properties along specific directions in space. Nanostructured materials have been already employed for several interesting sensor applications 2,3 and functional optical coatings, 4,5 for example. However, intrinsic physical properties are not fully understood yet.…”

Section: Introductionmentioning

confidence: 99%

Optical, structural, and magnetic properties of cobalt nanostructure thin films

Schmidt

Kjerstad

Hofmann

et al. 2009

Journal of Applied Physics

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We report on optical, structural, and magnetic properties of two substantially different cobalt nanostructure thin films deposited at an oblique angle of incidence of 85°away from the substrate normal. Comparison is made between an achiral columnar thin film grown without substrate rotation and a chiral nanocoil sculptured thin film by glancing angle deposition with substrate rotation. Generalized spectroscopic ellipsometry is employed to determine geometrical structure properties and the anisotropic optical constants of the films in the spectral range from 400 to 1000 nm. The magnetic properties are analyzed with a superconducting quantum interference device magnetometer. Both nanostructure thin films show highly anisotropic optical properties such as strong form birefringence and large dichroism. In particular, Co slanted columnar thin films are found to possess monoclinic optical properties. Magnetic measurements at room temperature show hysteresis anisotropy with respect to a magnetic field either parallel or perpendicular to the nanostructures' long axis. We find extremely large coercive fields of approximately 3 kOe for our achiral columnar nanostructures.

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Oxidation of evaporated porous silicon rugate filters

Cited by 13 publications

References 14 publications

Perspectives on oblique angle deposition of thin films: From fundamentals to devices

Perspectives on oblique angle deposition of thin films: From fundamentals to devices

Advanced multi-component nanostructures designed by dynamic shadowing growth

Optical, structural, and magnetic properties of cobalt nanostructure thin films

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