Open Access. Powered by Scholars. Published by Universities.®
- Discipline
-
- Chemical Engineering (26)
- Biomedical Engineering and Bioengineering (23)
- Physical Sciences and Mathematics (23)
- Life Sciences (15)
- Medicine and Health Sciences (10)
-
- Arts and Humanities (6)
- Chemistry (6)
- Mechanical Engineering (6)
- Civil and Environmental Engineering (5)
- Physics (5)
- Aerodynamics and Fluid Mechanics (4)
- Aerospace Engineering (4)
- History (3)
- Social and Behavioral Sciences (3)
- Biomedical Devices and Instrumentation (2)
- Business (2)
- Construction Engineering and Management (2)
- Education (2)
- Electrical and Computer Engineering (2)
- Biochemical and Biomolecular Engineering (1)
- Bioimaging and Biomedical Optics (1)
- Biomaterials (1)
- Biomechanics and Biotransport (1)
- Biomedical (1)
- Catalysis and Reaction Engineering (1)
- Computer Engineering (1)
- Engineering Mechanics (1)
- Engineering Science and Materials (1)
- Environmental Engineering (1)
- Keyword
-
- 02 PETROLEUM (1)
- 33 ADVANCED PROPULSION SYSTEMS (1)
- ACETYLENE (1)
- ALKANES (1)
- ALKYNES (1)
-
- Bearings (1)
- CAPACITY (1)
- CHEMICAL REACTIONS (1)
- COMBUSTION (1)
- COMBUSTION CHAMBERS (1)
- COMBUSTORS (1)
- COMPUTERIZED SIMULATION (1)
- Combustion (1)
- Combustion chambers (1)
- Combustion stability (1)
- DECOMPOSITION (1)
- Dynamics (1)
- ENERGY SOURCES (1)
- ENERGY TRANSFER (1)
- ENGINES (1)
- ETHANE (1)
- EXHAUST GASES (1)
- Eacting flow (1)
- FLUID MECHANICS (1)
- FLUIDS (1)
- FOSSIL FUELS (1)
- FUEL-AIR RATIO (1)
- FUELS (1)
- Flow visualization (1)
- GAS OILS (1)
- Publication Year
- Publication
- File Type
Articles 1 - 30 of 113
Full-Text Articles in Engineering
The Role Of Synthesis Solvent In Particle Size Of Metal Organic Frameworks, Jonathan Krisak
The Role Of Synthesis Solvent In Particle Size Of Metal Organic Frameworks, Jonathan Krisak
Undergraduate Research Posters 2018
Metal organic frameworks are a class of nanoporous materials with pore sizes ranging from 0.5 to 3 nm and high surface areas (500-6000 m2/g). These materials have potential applications in industrial catalysis, separation and purification, bio-mimetics, drug delivery, semiconductors, sensors and other electronics. The aim of this study is to understand the role of solvent in control of the particle size of the final MOF product. CuBTC MOF has been used as a model MOF in this study to understand this effect. Altering the dielectric constant of solvents is a potential method of controlling the particle size. The data obtained …
Methodology Development For The Implementation Ofmicrofluidic Mixers, Tahir Butt, Gautam Mahajan
Methodology Development For The Implementation Ofmicrofluidic Mixers, Tahir Butt, Gautam Mahajan
Undergraduate Research Posters 2018
Microfluidic platforms have been widely regarded as defining technologies for the development of chemical and biological synthesis and analysis systems, due to benefits associated with reduced reactant consumption, increases by orders of magnitude of the surface-to-volume ratios, and greatly enhanced control over reactions variables such as temperature and pressure. However, one of the bottlenecks for their wide application is the difficulty in achieving mixing, given the typical laminar flows in these systems. In this work we implement experimentally, various strategies using geometrical features to control the fluid motion and induce stirring flows. The mixers are fabricated using soft-lithography in PDMS …
Surface Functionalization Of Pure-Chirality Carbon Nanotubes By Covalent And Noncovalent Chemistry, Fjorela Xhyliu, Niyousha Mohammad Shafie
Surface Functionalization Of Pure-Chirality Carbon Nanotubes By Covalent And Noncovalent Chemistry, Fjorela Xhyliu, Niyousha Mohammad Shafie
Undergraduate Research Posters 2018
Single-wall carbon nanotubes (SWCNTs) are one-dimensional cylindrical nanostructures with distinct electronic and optical properties. With all its atoms on the surface, SWCNTs have been widely explored for chemical modification through noncovalent and covalent chemistry, which can provide promising applications in bioimaging and sensing. Here we investigated surface functionalization of purechirality SWCNTs with various glycopolymers, surfactants, and RPMI cell culture media with and without fetal bovine serum (FBS). Raman, vis-NIR absorption, and vis-NIR fluorescence spectra of SWCNTs in various solvent environments were monitored over time. While nanotube aggregation was not observed for incubation in FBS containing RPMI for 8 hours, interactions …
Multi-Phase Waste Gasification – Reaction Engineering For Sustainable Living Environments, Kristen M. Reyes, Mason J. Lang
Multi-Phase Waste Gasification – Reaction Engineering For Sustainable Living Environments, Kristen M. Reyes, Mason J. Lang
Undergraduate Research Posters 2018
Gasification converts carbon-based (organic) materials into gaseous products typically referred to as synthetic gas. This technology is an alternative for reducing carbon footprint of energy generation as well as for waste management. This research examines Catalytic Gasification as a route to Sustainability while converting spaceflight and municipal waste into high-value products. As polyethylene (PE) makes up one of the largest portions of both municipal and space waste, this project centered its attention on the gasification of mid-density PE. We used a slurry containing middensity PE, water, and solid catalysts (ruthenium on alumina, Ru/Al2O3) in a 1:1 PE/Ru ratio. The gasification …
Treatment Of Non-Epithelial Vaginal Cells From Lysyl Oxidase Like One Knockout Mice (Loxl 1) With Nanoparticles (Nps), Priya Patel
Treatment Of Non-Epithelial Vaginal Cells From Lysyl Oxidase Like One Knockout Mice (Loxl 1) With Nanoparticles (Nps), Priya Patel
Undergraduate Research Posters 2018
Female pelvic floor dysfunction includes pelvic organ prolapse (POP) due to multiple vaginal births causing elastin strength to be reduced. Several normal functions are compromised including bladder control, fecal continence, and painful urination and many other symptoms. Currently no effective treatment is known and women seek surgical mesh implants to correct these issues which are not entirely safe nor effective. The condition of POP affects women across the world and effective treatment is sought. Varying proteins including lysyl oxidase (LOX), tissue inhibitors of metalloproteinases, and matrix metalloproteinases are involved in elastin homeostasis. In this experiment, non-epithelial vaginal cells (NEVCs) retrieved …
Characterizing Complexes Of Dna And Elastin-Like Polypeptides, Bryce Noe
Characterizing Complexes Of Dna And Elastin-Like Polypeptides, Bryce Noe
Undergraduate Research Posters 2018
Elastin-like polypeptides (ELPs) are a class of environmental responsive materials. When prepared with a protein motif that selectively binds to nucleic acids, a nucleic acid-ELP complex can be formed, conferring the responsive properties of ELP onto the nucleic acid. One possible use for such a complex is in DNA origami, where nanoscaled assemblies of DNA can be transformed into nanomachines by using the ELP as an actuator. Other possible uses include the isolation and extraction of a selected strands of genetic material, or the delivery of genetic material to a cell. Using a bacterial expression system, our lab has prepared …
Implementation Of A Reverse Staggered-Herringbone Microfluidic Mixer For High-Throughput Polymeric Nanoparticles Synthesis, Alexa Roberts
Implementation Of A Reverse Staggered-Herringbone Microfluidic Mixer For High-Throughput Polymeric Nanoparticles Synthesis, Alexa Roberts
Undergraduate Research Posters 2018
The goal of this research is to implement and optimize the operating conditions of a microfluidic mixer to synthesize polymeric nanoparticles (NPs) in a high-throughput fashion. Using a reverse staggered-herringbone microfluidic mixer that we recently designed, the effects of experimental conditions such as flowrate and reactant composition on NP characteristics were investigated and optimized. The device design allowed for physical contact between two streams of fluids – one containing poly(lactic-co-glycolic acid; PLGA) in acetonitrile and the other deionized water, to allow for efficient mixing and NP precipitation to occur. The resulting NPs were characterized using dynamic light scattering (DLS) and …
Prediction Of Metabolism-Induced Neurotoxicity On A 384pillarplate, Rushabh Patel, Pranav Joshi, Soo-Yeon Kang, Stephen Hong, Parnian Bigdelou
Prediction Of Metabolism-Induced Neurotoxicity On A 384pillarplate, Rushabh Patel, Pranav Joshi, Soo-Yeon Kang, Stephen Hong, Parnian Bigdelou
Undergraduate Research Posters 2018
Metabolism of compounds including neurotoxins primarily occurs in the liver by a variety of drug-metabolizing enzymes (DMEs) followed by a series of downstream responses. Unmodified (or parent) neurotoxins are transported into human hepatocytes through several influx transporters or via passive diffusion and undergo Phase I and Phase II biotransformation by DMEs before they are cleared. Neurotoxins and their metabolites generated from human hepatocytes could potentially lead to the toxic effects on neural stem cells (NSCs) as the reactive metabolites have potential for producing reactive oxygen species (ROS), which can lead to irreversible oxidative damage to NSCs via lipid peroxidation, DNA, …
A 3d Cancer Cell Migration Assay On A 384-Pillar Plate With Sidewalls, Nicholas Lesh, Alexander Roth, Stephen Hong, Oju Jeon, Eben Alsberg
A 3d Cancer Cell Migration Assay On A 384-Pillar Plate With Sidewalls, Nicholas Lesh, Alexander Roth, Stephen Hong, Oju Jeon, Eben Alsberg
Undergraduate Research Posters 2018
Hepatocellular carcinoma (HCC) is an aggressive liver cancer where prognosis is heavily tied to metastasis progression. Researchers look to determine the triggers for metastasis to control its spread. The goal of this project is to determine these triggers by quantifying Hep3B cell migration on a high-throughput platform. We infected Hep3B cells with lentiviruses containing mCherry to produce stable fluorescent cells. Next, we determined the stability of growth factors in oxidized, methacrylated alginate (OMA) hydrogel by binding growth factors with methacrylated heparin sulfate (MHS) before encapsulating in OMA, printing onto the 384-pillar plate with sidewalls, and quantifying growth factor release via …
Dendrite Morphology Of Pb-5.8 Sb Alloy: Gradient Freeze Ds With Cross-Section Area Change, Michael Shannon
Dendrite Morphology Of Pb-5.8 Sb Alloy: Gradient Freeze Ds With Cross-Section Area Change, Michael Shannon
Undergraduate Research Posters 2018
Directional solidification (DS) is the process of solidifying a metal alloy from one end to another resulting in aligned primary dendrites which are branched tree like features. Alignment of primary dendrites along [100] direction and their uniformity and distribution along the DS length determines the mechanical properties. These properties are especially important for single crystal turbine blade applications in modern gas turbine engines. Convection during solidification plays an important role in formation of detrimental defects, such as, misaligned grains, non-uniformity of dendrites and composition inhomogeneity. In this study the microstructural evolution during “Gradient Freeze DS process”, involving an abrupt cross-section …
Civil Engineering Surrounds You, Claire Anderer-Armstrong
Civil Engineering Surrounds You, Claire Anderer-Armstrong
Undergraduate Research Posters 2018
Academic engineering departments are regularly asked to conduct tours of their laboratories to prospective CSU students. For the Civil & Environmental Engineering department, the tours typically take place in the Driving Simulation laboratory, which houses an RS-600 driving simulator. The purpose of this project was to develop a driving scenario that highlights various aspects of civil engineering. The programmed scenario will be used to conduct future tours.
Comparative Study Of The Microstructure And Mechanical Properties Of Mechanically Alloyed And Spark Plasma Sintered Alxcocrfeni (0≤X≤2)High Entropy Alloys, David Mikhail
Undergraduate Research Posters 2018
High entropy alloys are a new class of material systems that have promising potential in high temperature structural applications. Mechanical alloying (MA) has gained special attention as a powerful non-equilibrium process for fabricating amorphous and nanocrystalline materials, whereas spark plasma sintering (SPS) is a unique technique for processing dense and near net shape bulk alloys with homogenous microstructure. This research paper discusses novel mechanically alloyed followed by spark plasma sintering approach for assessing composition-microstructure-microhardness relationship in AlxCoCrFeNi (0≤x≤2) high entropy alloy as a candidate system. With increasing Al content, there was a gradual change from a fcc-based microstructure to a …
Virtual Reality Based Serious Games For Stna Training, Ryan Thomas Kall
Virtual Reality Based Serious Games For Stna Training, Ryan Thomas Kall
Undergraduate Research Posters 2018
In this project, exploratory steps have been taken towards the development of a set of serious games for state tested nursing assistants (STNAs) education and training, which promises to make the training more engaging and effective. Tasks include getting familiar with developing 3D scenes with Unity, human activity recognition with Microsoft Kinect, creating holograms with Microsoft HoloLens, and help implement a gaze-based mechanism for performance assessment in patient transfer skills.
Boundary Effects On The Locomotion Of Active Janus Particles, Marola W. Issa, Nicky R. Baumgartner
Boundary Effects On The Locomotion Of Active Janus Particles, Marola W. Issa, Nicky R. Baumgartner
Undergraduate Research Posters 2018
Self-propelled or “active” micrometer scale particles are capable of supplying local mechanical work, necessary for microscale cargo delivery and useful in other applications within bioimaging and sensing. Research in the last decade has focused on developing, measuring, and manipulating the locomotion mechanisms of active particles in simple environments. However, many applications will be in complex environments with nearby boundaries or variations in physiochemical cues. This poster reports the directed motion of platinum coated polystyrene particles at infinite dilution in the presence of H2O2, which acts as a fuel to drive motion. A transport mechanism called “diffusiophoresis” drives motion of the …
Spark Plasma Sintering Of Soft Magnetic Materials, Harnavdeep Kaur, Taban Larimian, Javier Esquivel
Spark Plasma Sintering Of Soft Magnetic Materials, Harnavdeep Kaur, Taban Larimian, Javier Esquivel
Undergraduate Research Posters 2018
Over the past 3 decades, iron-based soft magnetic alloys such as Finemet (Fe73.5Si13.5B9Nb3Cu1 (at%)) have attracted great interest due to their exceptional magnetic properties like high magnetization, low coercivity, and high curie temperature. However, the production of amorphous precursor requires very high cooling rates, and thus only wires, powders, and thin ribbons are achievable, yet these are not suitable in industrial applications where large volume of bulk magnetic components is required. Mechanical alloying (MA) has gained special attention as a powerful non-equilibrium process for fabricating amorphous and nanocrystalline materials, whereas spark plasma sintering (SPS) is a unique technique for processing …
P1: Salt Concentration And Ph Affect The Size Of Elastin-Like Polypeptide Nanoparticles, Bryce Noe, Ilona Tsuper, Daniel Terano, Richard Schmitt
P1: Salt Concentration And Ph Affect The Size Of Elastin-Like Polypeptide Nanoparticles, Bryce Noe, Ilona Tsuper, Daniel Terano, Richard Schmitt
Undergraduate Research Posters 2017
The transport of therapeutic drugs to specific tissues in the body can be accomplished using nanoparticles that encapsulate the drugs. Elastin-like polypeptides (ELP) is a class of materials that can reversibly form such nanoparticles in response to environmental cues. FLPs transition from soluble compounds to a phase separated system under particular solution conditions and have been used to produce temperature responsive surfactants. When these ELP surfactants are above their transition temperature, they spontaneously form energetically stable spherical micelles. When the temperature drops below the transition temperature, the micelles break apart and the ELP goes into solution. The size of these …
Evaluation Of Cetane Values Of Glycerolipids Extracted From Algae Scenedesmus Dimorphus Grown In Various Salinity Concentrations Using Gas Chromatography And Mass Spectrometry (Gc-Ms), Paul Lin, Chandana Mannem
Evaluation Of Cetane Values Of Glycerolipids Extracted From Algae Scenedesmus Dimorphus Grown In Various Salinity Concentrations Using Gas Chromatography And Mass Spectrometry (Gc-Ms), Paul Lin, Chandana Mannem
Undergraduate Research Posters 2017
Algae's ability to store lipids, renewability, and potentially safer for the environment has made it a promising alternative fuel source. An industry rating for a biofuel's potential is the cetane value, which is a measure of a fuel's quality related to various glycerolipid concentrations. Growing conditions will affect lipid profile in algae, thereby affecting the cetane value. This project will attempt to identify changes in the centane value of the algae Scenedesmus dimorphus grown in various salinity concentrations. Scenedesmus dimorphus is the algae chosen for this experiment because of its ability to rapidly grow under harsh conditions. In this experiment …
P2: Light Scattering Study Of The Size And Shape Of Mixed Elastin-Like Polypeptide Micelles, Ilona Tsuper, Daniel Terrano, Bryce Noe
P2: Light Scattering Study Of The Size And Shape Of Mixed Elastin-Like Polypeptide Micelles, Ilona Tsuper, Daniel Terrano, Bryce Noe
Undergraduate Research Posters 2017
Elastin-Like Polypeptides (ELP) can be used to form thermoreversible vehicles for drug delivery systems. The ELP nanoparticles are composed of three-armed star polypeptides. Each of the three arms extending from the negatively charged foldon domain include 20 repeats of the (GVGVP) amino acid sequence. In addition, linear constructs composed of 40 repeats of the same (GVGVP) sequence are introduced into the system. The mixed ELP polymer system is soluble at room temperature and becomes insoluble at the transition temperature (~ 50°C) forming micelles with the foldons on the exterior and linear constructs at the core. Above the transition, the size …
P1: Using Modified Dean Flow Designs To Increase Mixing Performance, Joshua Clark
P1: Using Modified Dean Flow Designs To Increase Mixing Performance, Joshua Clark
Undergraduate Research Posters 2017
We are using numerical solutions for the Navier-Stokes equations and the concentration - diffusion equation to model fluid flow and reactant distribution in serpentine type channels for micromixers/microreactors development. These mixers exploit centripetal forces on the fluid to induce cross-sectional fluid mixing, aka Dean flows. Various modifications are used to increase the mixing character of these crosssectional flows. We found that the performance of these mixers exceeds that of unmodified channels and we currently assess their performance relative to other state of the art methodologies used to induce mixing on the microscale.
Going Green: Experimental Adaptation Of Scenedesmus Dimorphus To Marine Conditions, Mohammed Khalil
Going Green: Experimental Adaptation Of Scenedesmus Dimorphus To Marine Conditions, Mohammed Khalil
Undergraduate Research Posters 2017
Algae has gained some interest as the need for alternative fuels becomes more pressing. Reliance on fossil fuels is causing our environment and economy harm, and is not sustainable moving forward. Lipid rich algae strains can be used in the production of biofuels, and provide an alternative fuel source. One challenge facing the prospect of algae as a fuel source is that lipid rich algae grows exclusively in freshwater. Considering the scarcity and cost to use freshwater for algae growth, interest has grown in the possibility of adapting lipid rich, freshwater algae to a seawater environment. Seawater can have up …
P2: Implementation Of Groove Based Designs For Engineering Fluid Flow In Micromixers, Tahir Butt
P2: Implementation Of Groove Based Designs For Engineering Fluid Flow In Micromixers, Tahir Butt
Undergraduate Research Posters 2017
Mixing on microscale is important for the development of miniaturized chemical reactors that use small quantities of reactants and allow better control over the reaction conditions and products. Nevertheless, achieving rapid mixing in this type of micro-reactors is challenging due to the lack of turbulence and slow diffusion on the microscale. In this work we implement micromixers designs based on surface groove/ridge patterns targeted at inducing cross-sectional flows that both extend the interface between the different reactants, as well as induce chaotic advection. We discuss the fabrication of these structures using soft-lithography in PDMS employing a mold and their optical …
Fabricating Non-Close Packed Colloidal Monolayers For Ion Irradiation Templates, Nandini Padaraju
Fabricating Non-Close Packed Colloidal Monolayers For Ion Irradiation Templates, Nandini Padaraju
Undergraduate Research Posters 2017
Due to their unique properties, anisotropic nanoparticles are desirable components for future applications yet there are few processes capable of fabricating nanoparticle impregnated coatings for the manufacturing environment. Our work seeks to develop new masking techniques for the production of the templated substrates that will induce ordered nanoparticle films. Specifically, we are fabricating non-close packed colloidal monolayers onto silicon substrates, which then serve as the template for ion irradiation. The first steps to creating this monolayer are obtaining a spin-coated poly(vinyl alcohol) (PVA) thin film of ~200 nm and a close-packed colloidal monolayer using a peltier heater. We achieved a …
P2: Dispersion Stability Of Dna-Wrapped Carbon Nanotubes In Biological Media, Fjorela Xhyliu
P2: Dispersion Stability Of Dna-Wrapped Carbon Nanotubes In Biological Media, Fjorela Xhyliu
Undergraduate Research Posters 2017
Single-wall carbon nanotubes (SWCNTs) are among the most widely studied artificial nanomaterials. Their dispersion stability in biological media is a prerequisite for applications development in biomedical imaging and sensing. This project investigates the dispersion stability of DNA-wrapped SWCNTs in RPMI cell culture media with and without fetal bovine serum (FBS). The synthetic SWCNT mixtures were purified into semiconducting enriched fractions and various single species including (11,1), (9,4), and (7,3) using recognition DNA sequences by a polymer aqueous two-phase (ATP) separation method. The near-infrared (NIR) fluorescence, vis-NIR absorption, and pH of DNA-SWCNT dispersions in different biological media were monitored over time. …
Experimental Analysis Of Catalytic Gasification Of Waste Polymers, Samuel O. Sanya, Uc Obiako, Aliandra Barbutti, Stephen Reeves, Eric M. Lange, Jade Moten
Experimental Analysis Of Catalytic Gasification Of Waste Polymers, Samuel O. Sanya, Uc Obiako, Aliandra Barbutti, Stephen Reeves, Eric M. Lange, Jade Moten
Undergraduate Research Posters 2017
This research focuses on advancing the current knowledge of a catalytic gasification process as a potential in-situ resource utilization and waste management system. This research has significance in a variety of engineering applications, but is of particular relevance towards municipal waste management and advancing space exploration. In this technology, typically referred to as Trash to Supply Gas (TtSG), liquid phase oxidation reactions produce carbon monoxide, carbon dioxide, and water. The oxidation reactions are complemented by two gas-phase reactions: the Water Gas Shift (WGS) and the Sabatier (or methanation) reaction, the main stages in the pathway of producing hydrogen and methane …
Spurious Grain Formation Due To Convection At Cross-Section-Changes During Directional Solidification, Noah Weber, Masoud Ghods
Spurious Grain Formation Due To Convection At Cross-Section-Changes During Directional Solidification, Noah Weber, Masoud Ghods
Undergraduate Research Posters 2017
Turbine blades are a critical component in high powered gas turbine engines. These components are directionally solidified to have a single grain orientation, which allows them to operate under high temperature and stress conditions. Spurious grain formation is a major concern when forming these turbine blades. The purpose of this study was to study the effect convection has on forming these defects within turbine blades. Two alloys, Pb-5.8%Sb (solutally unstable) and Al-19%Cu (solutally stable) were directionally solidified upward in a positive thermal gradient (thermally stable) in a graphite crucible having abrupt cross-sectional area change from 3.2 mm diameter to 9 …
P1: Assessment Of Metabolism-Induced Hepatotoxicity On A 384-Pillar Plate, Yana Sickar, Soo-Yeon Kang, Pranav Joshi, Kyeong-Nam Yu
P1: Assessment Of Metabolism-Induced Hepatotoxicity On A 384-Pillar Plate, Yana Sickar, Soo-Yeon Kang, Pranav Joshi, Kyeong-Nam Yu
Undergraduate Research Posters 2017
Microarray bioprinting technology has been explored to create miniaturized 3D cell cultures on a 384-pillar plate, which were combined with drug metabolizing enzymes (DMEs) and test compounds in a 384-well plate for metabolism-induced toxicity assays. Our goal in this study was to demonstrate rapid assessment of metabolism- induced toxicity on the 384-pillar plate and obtain reliable and highly predictive information on compound's hepatotoxicity in vivo. Briefly, human cells including Hep3B human hepatoma cell line as well as human embryonic kidney 293 (HEK 293) cell were encapsulated in alginate-Matrigel on the 384-pillar plate. Test compounds and six different DMEs including cytochromes …
P1: Dispersion And Characterization Of Boron Nitride Nanotubes Stabilized By Dna, Camerin Mcdonald
P1: Dispersion And Characterization Of Boron Nitride Nanotubes Stabilized By Dna, Camerin Mcdonald
Undergraduate Research Posters 2017
Boron nitride nanotubes (BNNTs) are newly emerging nanomaterials with extraordinary mechanical properties as well as thermal and chemical stability. There have been growing interests in both fundamental studies and technological development of BNNTs such as protective coatings for high temperature and hazardous environments due to recent success in large scale synthesis of BNNTs. In this work, various DNA sequences were utilized to stabilize aqueous dispersions of BNNTs. First, we determined the optimum mass ratio of 1:1 for BNNTs:DNA using (GT)20 by UV-vis absorbance measurements. Second, the DNA length effect on the dispersion yield of BNNTs was investigated using sequences (GT)3, …
P2: Image Analysis And Quantification Of 3d Cancer Cell Migration, Stephen Hong, Alexander Roth
P2: Image Analysis And Quantification Of 3d Cancer Cell Migration, Stephen Hong, Alexander Roth
Undergraduate Research Posters 2017
Metastatic tumors are known for their ability to migrate toward circulatory apparatus and detach from the primary tumor. Generally, metastasis is quantified in vitro using migration assays that are normally measured in two dimensions (2D). Threedimensional (3D) migration assays can better mimic cancers by providing similar microenvironments to those observed in vivo. Imaging 3D cell cultures requires multiple 2D images stacked along a Z-axis; however, imaged cells would be in-focus at varied z-positions at different time points due to the characteristics of cell migration. Our goal in this study was to analyze in-focus cell images and quantify cell migration in …
Connected Fpga Thermal Monitoring, John Schultz
Connected Fpga Thermal Monitoring, John Schultz
Undergraduate Research Posters 2017
Field Programmable Gate Arrays (FPGA) are configurable integrated circuits. One area that is very important in integrated circuits is temperature control. Improper heat control can lead to a decreased lifespan and possible failure of the device. Many different circuits can be created on the FPGA to suit a specific project or need. Due to FGPAs being configurable, it is hard to create efficient cooling methods. Our project seeks to monitor the FGPA's temperature with different configurations to eventually increase the efficiency of the thermal management system. To accomplish this, we programmed a system on the chip system onto the FPGA …
Transcutaneous Electrical Stimulation For The Production Of Functional Motion Of A Human Arm, Kyra Ruby
Transcutaneous Electrical Stimulation For The Production Of Functional Motion Of A Human Arm, Kyra Ruby
Undergraduate Research Posters 2017
Persons with tetraplegia experience little to no function in their arms and are therefore unable to perform reaching tasks without assistance. While functional electrical stimulation (FES) has shown promise for restoring motion to paralyzed limbs, it is limited by issues such as muscle fatigue and atrophy. A control strategy robust enough to overcome these issues has yet to be developed and some motions are not feasible even with the most sophisticated FES control strategy. In theory, a powered exoskeleton could be used in concert with an FES system to increase the accuracy of control and assist the arm when motions …