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Biomedical Engineering and Bioengineering Commons™
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- Discipline
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- Biomass (2)
- Bacterial identification (1)
- Bioenergy (1)
- Biological engineering (1)
- Catalytic pyrolysis (1)
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- Cell sorting (1)
- Dielectophoresis (1)
- Dissolved oxygen (1)
- Fermentation (1)
- High-throughput (1)
- Hydrocarbon fuels (1)
- Hydrodeoxygenation (1)
- Immunoassay (1)
- Microbubble (1)
- Microfluidics (1)
- Multiplexing (1)
- Nanoparticle (1)
- PHB (1)
- Pinyon Juniper (1)
- Polyamide (1)
- Polyhydroxybutyrate (1)
- Polypropylene (1)
- Raman Spectroscopy (1)
- Raman spectroscopy (1)
- Renewable energy (1)
- Retinal pigment epithelium; age-related macular degeneration; cell culture; in vitro; tissue culture (1)
- SWCNT film (1)
- Surface-Enhanced Raman Spectroscopy/Scattering (SERS) (1)
- UV functionalization (1)
- UWRL (1)
Articles 1 - 7 of 7
Full-Text Articles in Biomedical Engineering and Bioengineering
Hydrodeoxygenation Of Pinyon Juniper Catalytic Pyrolysis Oil To Hydrocarbon Fuels, Hossein Jahromi, Foster Agblevor
Hydrodeoxygenation Of Pinyon Juniper Catalytic Pyrolysis Oil To Hydrocarbon Fuels, Hossein Jahromi, Foster Agblevor
Biological Engineering Faculty Publications
As a renewable source, biomass is an essential option for diminishing dependence on conventional fossil fuel energy sources. Pyrolysis is a promising technology for the conversion of biomass into liquid fuels. However, several challenges associated with using pyrolysis oils such as their high acidity and low energy content inhibit their direct use as transportation fuels. We conducted a batch hydrodeoxygenation of pinyon juniper catalytic pyrolysis oil using Ni/SiO2-Al2O3 catalyst to improve the following properties of the oil: heating value, acidity, oxygen content, water content, and viscosity. During the hydrogenation process, the influence of four experimental factors; temperature, catalyst loading, residence …
Methods For Culturing Retinal Pigment Epithelial Cells: A Review Of Current Protocols And Future Recommendations, Aaron H. Fronk, Elizabeth Vargis
Methods For Culturing Retinal Pigment Epithelial Cells: A Review Of Current Protocols And Future Recommendations, Aaron H. Fronk, Elizabeth Vargis
Biological Engineering Faculty Publications
The retinal pigment epithelium is an important part of the vertebrate eye, particularly in studying the causes and possible treatment of age-related macular degeneration. The retinal pigment epithelium is difficult to access in vivo due to its location at the back of the eye, making experimentation with age-related macular degeneration treatments problematic. An alternative to in vivo experimentation is cultivating the retinal pigment epithelium in vitro, a practice that has been going on since the 1970s, providing a wide range of retinal pigment epithelial culture protocols, each producing cells and tissue of varying degrees of similarity to natural retinal pigment …
Deposition Of Carbon Nanotube Films On Polyamide And Polypropylene Substrates: A Computer Simulation Approach, Alejandro Heredia, Maria Colin-Garcia, Maria Del Pilar Carreon-Castro, Debarati Mukherjee, Bruno Abreu, David William Britt, Joana Catarina Mendes
Deposition Of Carbon Nanotube Films On Polyamide And Polypropylene Substrates: A Computer Simulation Approach, Alejandro Heredia, Maria Colin-Garcia, Maria Del Pilar Carreon-Castro, Debarati Mukherjee, Bruno Abreu, David William Britt, Joana Catarina Mendes
Biological Engineering Faculty Publications
In this work we study hydroxylated carbon nanotube (CNT) assembly on polyamide (PA) and polypropylene (PP) polymers activated by UV radiation from a theoretical and experimental perspective. Molecular computer simulation was done to understand the stable conformations and bulk properties (molecular dynamics) of the polymers before and after exposure to UV radiation at the molecular level. Our experiments suggest that PA presents more -OH active groups, producing a more hydrophilic surface, whereas PP exhibits less potential UV activation. These results suggest that it is possible a facile covalent functionalization method to tune organic polymer surface properties through SWCNT anchoring for …
The Use Of Microfluidics And Dielectrophoresis For Separation, Concentration, And Identification Of Bacteria, Cynthia Hanson, Michael Sieverts, Karen Tew, Annelise Dykes, Michaela Salisbury, Elizabeth Vargis
The Use Of Microfluidics And Dielectrophoresis For Separation, Concentration, And Identification Of Bacteria, Cynthia Hanson, Michael Sieverts, Karen Tew, Annelise Dykes, Michaela Salisbury, Elizabeth Vargis
Biological Engineering Faculty Publications
Traditional bacterial identification methods take one to two days to complete, relying on large bacteria colonies for visual identification. In order to decrease this analysis time in a cost-effective manner, a method to sort and concentrate bacteria based on the bacteria's characteristics itself is needed. One example of such a method is dielectrophoresis, which has been used by researchers to separate bacteria from sample debris and sort bacteria according to species. This work presents variations in which dielectrophoresis can be performed and their associated drawbacks and benefits specifically to bacterial identification. In addition, a potential microfluidic design will be discussed.
Bioenergy From Wastewater-Based Biomass, Ronald C. Sims, Sean K. Bedingfield, Reese Thompson, Judith L. Sims
Bioenergy From Wastewater-Based Biomass, Ronald C. Sims, Sean K. Bedingfield, Reese Thompson, Judith L. Sims
Biological Engineering Faculty Publications
The U.S. Department of Energy (DOE) has stated that biomass is the only renewable resource that can supplant petroleum-based liquid transportation fuels in the near term. Wastewater is beginning to be viewed as a potential resource that can be exploited for biomass production and conversion to bioenergy. We suggest that using wastewater from municipalities and industries as a resource for cultivating biomass and combining wastewater treatment with the production of biomass for bioenergy would provide benefits to both industries. Two waste-based biomass production systems that currently have large nationwide infrastructures include: (1) wastewater treatment systems that can be used to …
Rational Design Of Rama-Labeled Nanoparticles For A Dual-Modaility, Light Scattering Immunoassay On A Polystyrene Seubstrate, Nathan D. Israelsen, Donald Wooley, Cynthia Hanson, Elizabeth Vargis
Rational Design Of Rama-Labeled Nanoparticles For A Dual-Modaility, Light Scattering Immunoassay On A Polystyrene Seubstrate, Nathan D. Israelsen, Donald Wooley, Cynthia Hanson, Elizabeth Vargis
Biological Engineering Faculty Publications
Background: Surface-enhanced Raman scattering (SERS) is a powerful light scattering technique that can be used for sensitive immunoassay development and cell labeling. A major obstacle to using SERS is the complexity of fabricating SERS probes since they require nanoscale characterization and optical uniformity. The light scattering response of SERS probes may also be modulated by the substrate used for SERS analysis. A typical SERS substrate such as quartz can be expensive. Polystyrene is a cheaper substrate option but can decrease the SERS response due to interfering Raman emission peaks and high background fluorescence. The goal of this research is to …
Microbubble Assisted Polyhydroxybutyrate Production In Escherichia Coli, Kadriye Innan, Fulya Ay Sal, Asif Rahman, Ryan J. Putman, Foster A. Agblevor, Charles D. Miller
Microbubble Assisted Polyhydroxybutyrate Production In Escherichia Coli, Kadriye Innan, Fulya Ay Sal, Asif Rahman, Ryan J. Putman, Foster A. Agblevor, Charles D. Miller
Biological Engineering Faculty Publications
Background
One of the potential limitations of large scale aerobic Escherichia coli fermentation is the need for increased dissolved oxygen for culture growth and bioproduct generation. As culture density increases the poor solubility of oxygen in water becomes one of the limiting factors for cell growth and product formation. A potential solution is to use a microbubble dispersion (MBD) generating device to reduce the diameter and increase the surface area of sparged bubbles in the fermentor. In this study, a recombinantE. coli strain was used to produce polyhydroxybutyrate (PHB) under conventional and MBD aerobic fermentation conditions.
Results
In conventional …