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Articles 1 - 5 of 5
Full-Text Articles in Chemistry
Design Of A Hyperstable Endocrine Acting Fibroblast Growth Factot, Sara Armstrong
Design Of A Hyperstable Endocrine Acting Fibroblast Growth Factot, Sara Armstrong
Chemistry & Biochemistry Undergraduate Honors Theses
A novel chimera protein, consisting of the C-terminus of Fibroblast Growth Factor (FGF) 21 and super FGF1, a mutant of the wild-type FGF1, was studied. The protein retained the stability of sFGF1 and the endocrine acting behaviors and binding efficiency of FGF21, so that it could be more practical for therapeutic uses as a wound healing and angiogenic agent. sFGF1- FGF21 was expressed and purified before utilizing various biophysical techniques to measure its stability, secondary and tertiary characteristics, and metabolic activity.
Detection Of Nitrogen Dioxide Via Graphene-Enhanced Raman Scattering, Spencer Hazeslip
Detection Of Nitrogen Dioxide Via Graphene-Enhanced Raman Scattering, Spencer Hazeslip
Chemistry & Biochemistry Undergraduate Honors Theses
This paper presents the development of a nitrogen dioxide (NO2) sensor that utilizes the phenomenon of graphene-enhanced Raman scattering (GERS). The sensor consists of monolayer graphene on a silicon wafer, functionalized noncovalently with Copper(II) 2,9,16,23-tetra-tert-butyl-29H,31H-phthalocyanine (CuTTPc) via the solution soaking method. A custom sensing chamber was constructed to enable Raman spectra to be collected during NO2 exposure. The response of the sensor was found to be linear between 10 and 100 ppm NO2, indicating that it could be used for both detection and quantification. Furthermore, the sensor was shown to be reusable after …
Low-Cost Microstereolithography 3d Printing With Microfluidic Microsampling Applications, Lauren Twombly
Low-Cost Microstereolithography 3d Printing With Microfluidic Microsampling Applications, Lauren Twombly
Chemistry & Biochemistry Undergraduate Honors Theses
The growing field of stereolithography 3D printing has welcomed a new age ofmicrofluidic device fabrication techniques. When compared to previous planar fabrication techniques such as soft-lithography, stereolithography 3D printing offers highly automated procedures, reduced fabrication times, and greater complexity of device features. To date, the greatest tradeoff for 3D printing in microfluidic device fabrication is poorer resolution when compared to soft-lithography which can produce feature sizes on the nanometer scale. The poorer resolution of 3D printing limits the feasible size of features. While highly sophisticated 3D printers are capable of achieving sub 10 μm resolution, these instruments are incredibly expensive …
Carbon Dioxide Reduction On Large Area Liquid Metal Gallium-Indium Electrocatalysts, Thomas Hollis
Carbon Dioxide Reduction On Large Area Liquid Metal Gallium-Indium Electrocatalysts, Thomas Hollis
Chemistry & Biochemistry Undergraduate Honors Theses
Carbon dioxide (CO2) is widely known as a greenhouse gas that contributes to global warming due to the burning of fossil fuels. The carbon dioxide reduction reaction (CO2RR) is widely studied to reutilize CO2 to useful products, including methane, ethane, and carbon monoxide. This project studies the use of liquid metal gallium-indium as an electrocatalyst to perform CO2 reduction to carbon monoxide (CO) or possibly solid carbon in various solutions. Gallium-indium is characterized and studied through its “wetting” properties and adhesion to substrate foil through the measurement of contact angles inside solution. These liquid …
Developing Methods For Pattern Transfer In Photoelectrochemical Lithography, Ashlyn Descarpentrie
Developing Methods For Pattern Transfer In Photoelectrochemical Lithography, Ashlyn Descarpentrie
Chemistry & Biochemistry Undergraduate Honors Theses
The microprocessor industry has historically been driven by the goal of shrinking devices. To create features small enough to fit on such devices, photolithography has conventionally been used in the micropatterning of noble metal surfaces. Photolithography is a complicated and expensive process that involves a cleanroom, metallization processes, and photoresist. While this investment makes sense for high revenue applications, a number of microelectronic devices do not require nanometer-scale patterned features. Examples of such applications include specific types of antennae, sensing electrodes, and photocatalysts. Photolithography for these devices is thus too costly in both money and energy. The Coridan lab has …