Nanofluidic Applications of Silica Membranes

Stout, John Michael

01 October 2018

This work presents membrane development applicable in nanofluidic devices. These membranes can also be termed suspended thin films, supported on two or more edges. I first discuss motivation and background for developing these structures. Then I derive the formative principles for nanofluidic systems. Following the derivation of the Navier-Stokes and Washburn equations, I discuss applying these theories to planar nanofluidic capillaries and finish the derivation by discussing the forces that drive liquid flow in nanochannels. I next discuss the membrane development process, starting with my work in static height traps, and develop the concept of analyzing nanoparticles using suspended membranes. After reviewing the lessons learned from the double-nanopore project I discuss developing an oxide layer tuned to the needs of a membrane and present the design of an adjustable membrane structure. Afterward, I discuss modeling and simulating the structure, and present a procedure for fabricating robust membranes. I then explain applying the membrane structure to form a nanofluidic pump and document the process for recording and analyzing the pumping characteristics for nanodevices. As part of the pump section I propose a theory and model for predicting the behavior of the pumps. I next present applying active membranes as nanoparticle traps. I document a quick-turn optical profilometry method for charicterizing the devices, then present experimental data involving trapping. Early results show that the device functions as a nanoparticle concentrator and may work well as a size-based trap for nanoparticles. I conclude by summarizing the main contributions made during my course of study and by providing supplemental material to guide future research.

fluidics

microfabrication

nanotechnology

pumps

silicon dioxide

nanopore

nanoparticle

fractionation

NEMS

Electrical and Computer Engineering

Synthesizing Germanium And Silicon Nanocrystals Embedded In Silicon Dioxide By Magnetron Sputtering Technique

Alagoz, Arif Sinan

01 August 2007

Applications of semiconductor nanocrystal in electronics are promising. Various techniques were developed to synthesize and analyze semiconductor nanocrystals for integrated circuit applications. In this study, silicon and germanium nanocrystals were synthesized in silicon dioxide matrix by magnetron sputtering deposition and following high temperature furnace annealing. Multilayer and single layer samples were prepared by co-sputtering depositions. Transmission electron microscopy measurements were carried out to analyze annealing effects on nanocrystal size distribution, change in shape, density and localization in silicon dioxide (SiO2). Ge-Ge Traverse Optical (TO) peak was monitored using Raman spectroscopy to investigate germanium nanocrystal formation and stress effects of silicon dioxide. Si-O-Si asymmetric stretching band is examined by Fourier transform infrared transmission spectroscopy to study silicon dioxide matrix recovery with germanium nanocrystal formation. Luminescence characteristics of silicon nanocrystals in visible and near infrared region (550nm-1050nm) with changing nanocrystal size and density were studied with photoluminescence spectroscopy.

QC Physics 1-999

Interaction between primary alveolar macrophages and primary alveolar type II cells under basal conditions and after lipopolysaccharide or quartz exposure

Kanj, Rania S.

January 2004

Thesis (Ph. D.)--West Virginia University, 2004. / Title from document title page. Document formatted into pages; contains x, 130 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 120-130).

Characterization of Dielectric Films for Electrowetting on Dielectric Systems

Rajgadkar, Ajay

12 July 2010

Electrowetting is a phenomenon that controls the wettability of liquids on solid surfaces by the application of electric potential. It is an interesting method to handle tiny amounts of liquid on solid surfaces. In recent times, researchers have been investigating this phenomenon and have reported some unexplained behavior and degradation in the Electrowetting system performance. Electrowetting systems include the presence of electric field and different materials from metals to dielectrics and electrolytes that create an environment in which corrosion processes play a very important role. With the small dimensions of the electrodes, corrosion can cause failure quickly when the dielectric fails. In this work, commonly used dielectric films such as silicon dioxide and silicon nitride were deposited using Plasma Enhanced Chemical Vapor Deposition and characterized on the basis of thickness uniformity, etch rate measurements, Dry current – voltage measurements and Wet current – voltage measurements. Sputtered silicon dioxide films were also characterized using the same methods. The correlation between Dry I – V and Wet I – V measurements was studied and a comparison of dielectric quality of films based on these measurements is presented. Also, impact of different liquids on the dielectric quality of films was studied.

pecvd

silicon dioxide

silicon nitride

etch rates

electrical properties

American Studies

Arts and Humanities

The role of mitochondria in mediating silica-induced apoptosis and inflammatory cytokine production of alveolar macrophages

Hu, Shuiying.

January 2004

Thesis (Ph. D.)--West Virginia University, 2004. / Title from document title page. Document formatted into pages; contains ix, 103 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references (p. 89-100).

Characterization of Copper-doped Silicon Dioxide Programmable Metallization Cells

January 2011

abstract: Programmable Metallization Cell (PMC) is a resistance-switching device based on migration of nanoscale quantities of cations in a solid electrolyte and formation of a conducting electrodeposit by the reductions of these cations. This dissertation presents electrical characterization results on Cu-SiO2 based PMC devices, which due to the na- ture of materials can be easily integrated into the current Complimentary metal oxide semiconductor (CMOS) process line. Device structures representing individual mem- ory cells based on W bottom electrode and n-type Si bottom electrode were fabricated for characterization. For the W bottom electrode based devices, switching was ob- served for voltages in the range of 500mV and current value as low as 100 nA showing the electrochemical nature and low power potential. The ON state showed a direct de- pendence on the programming current, showing the possibility of multi-bit storage in a single cell. Room temperature retention was demonstrated in excess of 105 seconds and endurance to approximately 107 cycles. Switching was observed for microsecond duration 3 V amplitude pulses. Material characterization results from Raman, X-ray diffraction, Rutherford backscattering and Secondary-ion mass spectroscopy analysis shows the influence of processing conditions on the Cu concentration within the film and also the presence of Cu as free atoms. The results seemed to indicate stress-induced void formation in the SiO2 matrix as the driving mechanism for Cu diffusion into the SiO2 film. Cu/SiO2/nSi based PMC devices were characterized and were shown to have inherent isolation characteristics, proving the feasibility of such a structure for a passive array. The inherent isolation property simplifies fabrication by avoiding the need for a separate diode element in an array. The isolation characteristics were studied mainly in terms of the leakage current. The nature of the diode interface was further studied by extracting a barrier potential which shows it can be approximated to a Cu-nSi metal semiconductor Schottky diode. / Dissertation/Thesis / Ph.D. Electrical Engineering 2011

Electrical Engineering

Materials Science

cbram

copper doped silicon dioxide

non volatile memory

passive array

resistance switching

Determinacao das caracteristicas de intumescimento de adjuvantes

Lima Neto, Severino Antonio de

January 1996

O intumescimento é um dos fatores decisivos que influenciam o comportamento de desintegração de formas farmac6uticas compactadas e, consequentemente, o perfil biofarmacêutico de substancias ativas. Entre os diversos adjuvantes empregados para promover a desagregação daquelas formas farmac6uticas nas suas partículas primarias originais, são utilizadas varias substancias, abrangidas pelo conceito de desintegrantes intumescedores. A escolha do adjuvante mais adequado nestes casos pode ser vista como uma atividade que exige o gasto considerável de tempo e de custos elevados. Além disto deve ser levada em consideração a existência de vários produtos similares no mercado. A questão da equival6ncia representa portanto um desafio importante na fase de formulação. Com o objetivo de aumentar os conhecimentos nesta área, foi desenvolvido equipamento para a avaliação dinâmica do intumescimento de pês. Inicialmente foram considerados fatores de construção do aparelho, tais como a porosidade, espessura e área do filtro de vidro sintetizado. Foram tamb6m avaliadas variações metodológicas, entre as quais a temperatura de realização do teste e o meio liquido empregado. Croscarmelose, um superdesintegrante, foi utilizada como adjuvante-modelo no teste do equipamento. A alteração do meio liquido de ensaio foi o fator que causou a maior influ6ncia sobre os resultados, embora a espessura dos filtros de vidro sintetizado tenha causado alguma alteração quer no tempo como no volume final de intumescimento. intumescimento. Já a mudança de temperatura não provocou diferenças significativas nas observações. Numa segunda fase foi investigada a influência deste desintegrante sobre as características de intumescimento de quatro celuloses microcristalinas (CMCr) isoladas ou adicionadas com um lubrificante. Para tanto elaborou-se um planejamento fatorial 4 X 2 X 2. A presença do desintegrante, como esperado, provocou aumento do volume final de intumescimento das CMCr, que apresentaram, no entanto, comportamentos diferenciados frente ao adjuvante. Já a presença do lubrificante conduziu a resultados totalmente dependentes do tipo de CMCr testada. A análise comparativa entre estes produtos demonstrou que somente num caso houve simitaridade de comportamento. / Swelling is one of the decisive factors influencing the disintegrant behavior of compacted pharmaceutical dosage forms and consequently the biopharmaceutical profile of drug substances. Among the various excipients used to promote the disintegration of such dosage forms in its originally primary particles, several substances, classified as swelling disintegrants, are employed. The choice of the most appropriate excipient in this case can be a time and cost consuming enterprise. Additionally it must be considered that the same substance can be delivered in the market by different producers. The question of equivalence represents also an important challenge in the formulation phase. In order to provide more knowledge in this area an apparatus to analyze the dynamic swelling of powder admixtures was developed. Construction factors such as filter porosity, thickness and area were considered. Methodological variants including essay temperature and liquid medium were also evaluated. Croscarmelose, a superdisintegrant, was used as model excipient to test the self built equipment. The change of the test fluid was the determinant factor on the results, although the thickness of the sintered glass filter showed some influence on both swelling volume and swelling time of this adjuvant. As a second step, the influence of this disintegrant on the swelling behavior of four microcrystalline celluloses (MCC) alone or added with a lubricant were investigated by using a 4 X 2 X 2 factorial design. The presence of the disintegrant was able to increase the swelling volume. Both final swelling volume and time were dependent of the MCC type. The lubricant showed different influences on the four tested MCC. A comparative study demonstrated that only in one case these products presented similarly swelling behavior.

Adjuvantes farmaceuticos

Pos : Intumescimento

Swelling

Croscarmellose sodium

Microcrystalline cellulose

Colloidal silicon dioxide

Avicel

Microcel

Determinacao das caracteristicas de intumescimento de adjuvantes

Lima Neto, Severino Antonio de

January 1996

O intumescimento é um dos fatores decisivos que influenciam o comportamento de desintegração de formas farmac6uticas compactadas e, consequentemente, o perfil biofarmacêutico de substancias ativas. Entre os diversos adjuvantes empregados para promover a desagregação daquelas formas farmac6uticas nas suas partículas primarias originais, são utilizadas varias substancias, abrangidas pelo conceito de desintegrantes intumescedores. A escolha do adjuvante mais adequado nestes casos pode ser vista como uma atividade que exige o gasto considerável de tempo e de custos elevados. Além disto deve ser levada em consideração a existência de vários produtos similares no mercado. A questão da equival6ncia representa portanto um desafio importante na fase de formulação. Com o objetivo de aumentar os conhecimentos nesta área, foi desenvolvido equipamento para a avaliação dinâmica do intumescimento de pês. Inicialmente foram considerados fatores de construção do aparelho, tais como a porosidade, espessura e área do filtro de vidro sintetizado. Foram tamb6m avaliadas variações metodológicas, entre as quais a temperatura de realização do teste e o meio liquido empregado. Croscarmelose, um superdesintegrante, foi utilizada como adjuvante-modelo no teste do equipamento. A alteração do meio liquido de ensaio foi o fator que causou a maior influ6ncia sobre os resultados, embora a espessura dos filtros de vidro sintetizado tenha causado alguma alteração quer no tempo como no volume final de intumescimento. intumescimento. Já a mudança de temperatura não provocou diferenças significativas nas observações. Numa segunda fase foi investigada a influência deste desintegrante sobre as características de intumescimento de quatro celuloses microcristalinas (CMCr) isoladas ou adicionadas com um lubrificante. Para tanto elaborou-se um planejamento fatorial 4 X 2 X 2. A presença do desintegrante, como esperado, provocou aumento do volume final de intumescimento das CMCr, que apresentaram, no entanto, comportamentos diferenciados frente ao adjuvante. Já a presença do lubrificante conduziu a resultados totalmente dependentes do tipo de CMCr testada. A análise comparativa entre estes produtos demonstrou que somente num caso houve simitaridade de comportamento. / Swelling is one of the decisive factors influencing the disintegrant behavior of compacted pharmaceutical dosage forms and consequently the biopharmaceutical profile of drug substances. Among the various excipients used to promote the disintegration of such dosage forms in its originally primary particles, several substances, classified as swelling disintegrants, are employed. The choice of the most appropriate excipient in this case can be a time and cost consuming enterprise. Additionally it must be considered that the same substance can be delivered in the market by different producers. The question of equivalence represents also an important challenge in the formulation phase. In order to provide more knowledge in this area an apparatus to analyze the dynamic swelling of powder admixtures was developed. Construction factors such as filter porosity, thickness and area were considered. Methodological variants including essay temperature and liquid medium were also evaluated. Croscarmelose, a superdisintegrant, was used as model excipient to test the self built equipment. The change of the test fluid was the determinant factor on the results, although the thickness of the sintered glass filter showed some influence on both swelling volume and swelling time of this adjuvant. As a second step, the influence of this disintegrant on the swelling behavior of four microcrystalline celluloses (MCC) alone or added with a lubricant were investigated by using a 4 X 2 X 2 factorial design. The presence of the disintegrant was able to increase the swelling volume. Both final swelling volume and time were dependent of the MCC type. The lubricant showed different influences on the four tested MCC. A comparative study demonstrated that only in one case these products presented similarly swelling behavior.

Adjuvantes farmaceuticos

Pos : Intumescimento

Swelling

Croscarmellose sodium

Microcrystalline cellulose

Colloidal silicon dioxide

Avicel

Microcel

Design and Construction of a High Vacuum Surface Analysis Instrument to Study Chemistry at Nanoparticulate Surfaces

Jeffery, Brandon Reed

27 May 2011

Metal oxide and metal oxide-supported metal nanoparticles can adsorb and decompose chemical warfare agents (CWAs) and their simulants. Nanoparticle activity depends on several factors including chemical composition, particle size, and support, resulting in a vast number of materials with potential applications in CWA decontamination. Current instrumentation in our laboratory used to investigate fundamental gas-surface interactions require extensive time and effort to achieve operating conditions. This thesis describes the design and construction of a high-throughput, high vacuum surface analysis instrument capable of studying interactions between CWA simulants and nanoparticulate surfaces. The new instrument is small, relatively inexpensive, and easy to use, allowing for expeditious investigations of fundamental interactions between gasses and nanoparticulate samples. The instrument maintains the sample under high vacuum (10?⁷-10?⁹ torr) and can reach operating pressures in less than one hour. Thermal control of the sample from 150-800 K enables sample cleaning and thermal desorption experiments. Infrared spectroscopic and mass spectrometric methods are used concurrently to study gas-surface interactions. Temperature programmed desorption is used to estimate binding strength of adsorbed species. Initial studies were conducted to assess the performance of the instrument and to investigate interactions between the CWA simulant dimethyl methylphosphonate (DMMP) and nanoparticulate silicon dioxide. / Master of Science

temperature programmed desorption

infrared spectroscopy

high vacuum

chemical warfare agent

nanoparticles

silicon dioxide

Development of a Knudsen Cell Reactor for Measuring the Uptake of Atmospheric Gases on Particulate Matter

Rockhold, Thomas Hall Jr.

12 May 2011

Heterogeneous reactions between mineral dust aerosols and gas phase volatile organic compounds have the potential to impact important atmospheric chemical processes. However, little is known about the uptake and reactivity of volatile organic compounds on particulates found in the environment. A Knudsen cell was designed and constructed for providing precise measurement of reaction probabilities within these systems. The instrument was validated through a series of experiments. After validating the Knudsen cell against several key benchmarks, the instrument was used to measure the uptake coefficient for ethanol on particulate silicon dioxide. The uptake coefficient of ethanol on silicon dioxide, a common compound in mineral dust aerosols, was determined to be 7 x 10-7. Therefore, uptake of ethanol on silicon dioxide would be competitive with the loss of other volatile organic compounds on silicon dioxide, which show similar rates of uptake. The Knudsen cell was validated and measured the uptake of ethanol on silicon dioxide, and future work with the Knudsen cell will study the uptake of chemical warfare agent simulants on metal oxides. / Master of Science

Uptake Coefficient

Volatile Organic Compounds

Ethanol

Knudsen Cell

Silicon Dioxide

Mineral Dust Aerosols