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You searched for +publisher:"University of Colorado" +contributor:("Joel L. Kaar"). Showing records 1 – 23 of 23 total matches.

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University of Colorado

1. Hassett, Kimberly Jean. Ultra Stable Glassy State Vaccines Containing Adjuvants.

Degree: PhD, 2014, University of Colorado

  Vaccines often require a narrow temperature range for storage during the cold chain. Damage to vaccines can occur if the vaccines are frozen, or… (more)

Subjects/Keywords: Adjuvant; Aluminum; Lyophilization; Vaccine; Chemical Engineering

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APA (6th Edition):

Hassett, K. J. (2014). Ultra Stable Glassy State Vaccines Containing Adjuvants. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/99

Chicago Manual of Style (16th Edition):

Hassett, Kimberly Jean. “Ultra Stable Glassy State Vaccines Containing Adjuvants.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/99.

MLA Handbook (7th Edition):

Hassett, Kimberly Jean. “Ultra Stable Glassy State Vaccines Containing Adjuvants.” 2014. Web. 23 Mar 2019.

Vancouver:

Hassett KJ. Ultra Stable Glassy State Vaccines Containing Adjuvants. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/99.

Council of Science Editors:

Hassett KJ. Ultra Stable Glassy State Vaccines Containing Adjuvants. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/99


University of Colorado

2. Swartzlander, Mark D. Studying and Manipulating the Host Reaction to Tissue Engineering Scaffolds.

Degree: PhD, 2014, University of Colorado

  Tissue engineering aims to replace damaged tissue in the body through the use of cell-laden scaffolds. The scaffold serves as a temporary support for… (more)

Subjects/Keywords: foreign body reaction; Hydrogel; macrophage; mesenchymal stem cell; PEG; tissue engineering; Chemical Engineering

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APA (6th Edition):

Swartzlander, M. D. (2014). Studying and Manipulating the Host Reaction to Tissue Engineering Scaffolds. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/100

Chicago Manual of Style (16th Edition):

Swartzlander, Mark D. “Studying and Manipulating the Host Reaction to Tissue Engineering Scaffolds.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/100.

MLA Handbook (7th Edition):

Swartzlander, Mark D. “Studying and Manipulating the Host Reaction to Tissue Engineering Scaffolds.” 2014. Web. 23 Mar 2019.

Vancouver:

Swartzlander MD. Studying and Manipulating the Host Reaction to Tissue Engineering Scaffolds. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/100.

Council of Science Editors:

Swartzlander MD. Studying and Manipulating the Host Reaction to Tissue Engineering Scaffolds. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/100


University of Colorado

3. Skaalure, Stacey. Tuning Hydrogel Degradation for Cartilage Tissue Engineering.

Degree: PhD, 2014, University of Colorado

  Cartilage tissue engineering using biodegradable scaffolds as carriers for cartilage cells (chondrocytes) presents a promising strategy to regenerate cartilage damaged by age, injury, or… (more)

Subjects/Keywords: Cartilage; Chondrocyte; Degradation; Hydrogel; Tissue Engineering; Biomedical Engineering and Bioengineering

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APA (6th Edition):

Skaalure, S. (2014). Tuning Hydrogel Degradation for Cartilage Tissue Engineering. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/102

Chicago Manual of Style (16th Edition):

Skaalure, Stacey. “Tuning Hydrogel Degradation for Cartilage Tissue Engineering.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/102.

MLA Handbook (7th Edition):

Skaalure, Stacey. “Tuning Hydrogel Degradation for Cartilage Tissue Engineering.” 2014. Web. 23 Mar 2019.

Vancouver:

Skaalure S. Tuning Hydrogel Degradation for Cartilage Tissue Engineering. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/102.

Council of Science Editors:

Skaalure S. Tuning Hydrogel Degradation for Cartilage Tissue Engineering. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/102


University of Colorado

4. Woodruff, Lauren B. A. Genomic engineering of Escherichia coli for improved ethanol tolerance and ethanol production.

Degree: PhD, Chemical & Biochemical Engineering, 2012, University of Colorado

  With tremendous advancements in the genomics era, engineered microbes are being used as biological factories to produce an array of products, including pharmaceuticals, bioplastics,… (more)

Subjects/Keywords: Chemical Engineering

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APA (6th Edition):

Woodruff, L. B. A. (2012). Genomic engineering of Escherichia coli for improved ethanol tolerance and ethanol production. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/40

Chicago Manual of Style (16th Edition):

Woodruff, Lauren B A. “Genomic engineering of Escherichia coli for improved ethanol tolerance and ethanol production.” 2012. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/40.

MLA Handbook (7th Edition):

Woodruff, Lauren B A. “Genomic engineering of Escherichia coli for improved ethanol tolerance and ethanol production.” 2012. Web. 23 Mar 2019.

Vancouver:

Woodruff LBA. Genomic engineering of Escherichia coli for improved ethanol tolerance and ethanol production. [Internet] [Doctoral dissertation]. University of Colorado; 2012. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/40.

Council of Science Editors:

Woodruff LBA. Genomic engineering of Escherichia coli for improved ethanol tolerance and ethanol production. [Doctoral Dissertation]. University of Colorado; 2012. Available from: http://scholar.colorado.edu/chbe_gradetds/40


University of Colorado

5. Tibbitt, Mark William. Fundamental Characterization of Photodegradable Hydrogels: Spatiotemporal Control of the Cellular Microenvironment.

Degree: PhD, Chemical & Biochemical Engineering, 2012, University of Colorado

  Synthetic hydrogels are an attractive class of materials for the design of well-defined cell culture platforms to better understand how cells receive and integrate… (more)

Subjects/Keywords: Cell Culture; Hydrogel; Modeling; Photodegradation; Poly(ethylene glycol); Tissue Engineering; Biomedical Engineering and Bioengineering; Chemical Engineering; Polymer Chemistry

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APA (6th Edition):

Tibbitt, M. W. (2012). Fundamental Characterization of Photodegradable Hydrogels: Spatiotemporal Control of the Cellular Microenvironment. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/41

Chicago Manual of Style (16th Edition):

Tibbitt, Mark William. “Fundamental Characterization of Photodegradable Hydrogels: Spatiotemporal Control of the Cellular Microenvironment.” 2012. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/41.

MLA Handbook (7th Edition):

Tibbitt, Mark William. “Fundamental Characterization of Photodegradable Hydrogels: Spatiotemporal Control of the Cellular Microenvironment.” 2012. Web. 23 Mar 2019.

Vancouver:

Tibbitt MW. Fundamental Characterization of Photodegradable Hydrogels: Spatiotemporal Control of the Cellular Microenvironment. [Internet] [Doctoral dissertation]. University of Colorado; 2012. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/41.

Council of Science Editors:

Tibbitt MW. Fundamental Characterization of Photodegradable Hydrogels: Spatiotemporal Control of the Cellular Microenvironment. [Doctoral Dissertation]. University of Colorado; 2012. Available from: http://scholar.colorado.edu/chbe_gradetds/41


University of Colorado

6. Noonan, Patrick Scott. Cooperative Self-Assembly at Interfaces and its Impact on Long Range Molecular Orientation.

Degree: PhD, Chemical & Biochemical Engineering, 2013, University of Colorado

  The prominence of molecular self-assembly in chemical and biochemical processes related to sensing, electro-optical applications, and cellular mechanisms motivates fundamental studies of self-assembly processes.… (more)

Subjects/Keywords: aptamers; biosensors; interfacial phenomena; liquid crystals; nucleic acids; Biochemical and Biomolecular Engineering; Chemical Engineering

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APA (6th Edition):

Noonan, P. S. (2013). Cooperative Self-Assembly at Interfaces and its Impact on Long Range Molecular Orientation. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/53

Chicago Manual of Style (16th Edition):

Noonan, Patrick Scott. “Cooperative Self-Assembly at Interfaces and its Impact on Long Range Molecular Orientation.” 2013. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/53.

MLA Handbook (7th Edition):

Noonan, Patrick Scott. “Cooperative Self-Assembly at Interfaces and its Impact on Long Range Molecular Orientation.” 2013. Web. 23 Mar 2019.

Vancouver:

Noonan PS. Cooperative Self-Assembly at Interfaces and its Impact on Long Range Molecular Orientation. [Internet] [Doctoral dissertation]. University of Colorado; 2013. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/53.

Council of Science Editors:

Noonan PS. Cooperative Self-Assembly at Interfaces and its Impact on Long Range Molecular Orientation. [Doctoral Dissertation]. University of Colorado; 2013. Available from: http://scholar.colorado.edu/chbe_gradetds/53


University of Colorado

7. Gerhardt, Alana. Synergistic Effects of Interfaces and Agitation on Particle Formation in Therapeutic Protein Formulations in Pre-filled Syringes.

Degree: PhD, 2014, University of Colorado

  Pre-filled syringes are commonly used storage and delivery devices for protein therapeutics because of their convenience and ease of use. However, in a pre-filled… (more)

Subjects/Keywords: monoclonal antibody; particle formation; pre-filled syringes; protein aggregation; silicone oil; Biochemical and Biomolecular Engineering; Medicinal Chemistry and Pharmaceutics

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APA (6th Edition):

Gerhardt, A. (2014). Synergistic Effects of Interfaces and Agitation on Particle Formation in Therapeutic Protein Formulations in Pre-filled Syringes. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/60

Chicago Manual of Style (16th Edition):

Gerhardt, Alana. “Synergistic Effects of Interfaces and Agitation on Particle Formation in Therapeutic Protein Formulations in Pre-filled Syringes.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/60.

MLA Handbook (7th Edition):

Gerhardt, Alana. “Synergistic Effects of Interfaces and Agitation on Particle Formation in Therapeutic Protein Formulations in Pre-filled Syringes.” 2014. Web. 23 Mar 2019.

Vancouver:

Gerhardt A. Synergistic Effects of Interfaces and Agitation on Particle Formation in Therapeutic Protein Formulations in Pre-filled Syringes. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/60.

Council of Science Editors:

Gerhardt A. Synergistic Effects of Interfaces and Agitation on Particle Formation in Therapeutic Protein Formulations in Pre-filled Syringes. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/60


University of Colorado

8. Groot, Anne-Joost. Metabolism and growth in selections of mutant libraries; modeling metabolic phenotypes and engineering sugar utilization in Escherichia coli.

Degree: PhD, Chemical & Biochemical Engineering, 2014, University of Colorado

  Selections with collections (libraries) of synthetically engineered microbes can rapidly identify mutants with fitness increasing mutations. They investigate how a known mutant genotype affects… (more)

Subjects/Keywords: Directed Evolution; Genetic Engineering; Genomics; Metabolic Engineering; Metabolic Modeling; Next Generation Sequencing; Bioinformatics; Chemical Engineering; Genetics

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APA (6th Edition):

Groot, A. (2014). Metabolism and growth in selections of mutant libraries; modeling metabolic phenotypes and engineering sugar utilization in Escherichia coli. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/62

Chicago Manual of Style (16th Edition):

Groot, Anne-Joost. “Metabolism and growth in selections of mutant libraries; modeling metabolic phenotypes and engineering sugar utilization in Escherichia coli.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/62.

MLA Handbook (7th Edition):

Groot, Anne-Joost. “Metabolism and growth in selections of mutant libraries; modeling metabolic phenotypes and engineering sugar utilization in Escherichia coli.” 2014. Web. 23 Mar 2019.

Vancouver:

Groot A. Metabolism and growth in selections of mutant libraries; modeling metabolic phenotypes and engineering sugar utilization in Escherichia coli. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/62.

Council of Science Editors:

Groot A. Metabolism and growth in selections of mutant libraries; modeling metabolic phenotypes and engineering sugar utilization in Escherichia coli. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/62


University of Colorado

9. Schoenbaum, Carolyn. Controlling Catalyst Active Sites Using Self-Assembled Monolayers.

Degree: PhD, Chemical & Biochemical Engineering, 2014, University of Colorado

  Elucidating the site requirements for reactions over heterogeneous catalysts can be challenging since, unlike their homogenous counterparts, the surfaces of these materials are comprised… (more)

Subjects/Keywords: catalysis; hydrogenation; palladium; reactivity; Chemical Engineering

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APA (6th Edition):

Schoenbaum, C. (2014). Controlling Catalyst Active Sites Using Self-Assembled Monolayers. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/63

Chicago Manual of Style (16th Edition):

Schoenbaum, Carolyn. “Controlling Catalyst Active Sites Using Self-Assembled Monolayers.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/63.

MLA Handbook (7th Edition):

Schoenbaum, Carolyn. “Controlling Catalyst Active Sites Using Self-Assembled Monolayers.” 2014. Web. 23 Mar 2019.

Vancouver:

Schoenbaum C. Controlling Catalyst Active Sites Using Self-Assembled Monolayers. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/63.

Council of Science Editors:

Schoenbaum C. Controlling Catalyst Active Sites Using Self-Assembled Monolayers. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/63


University of Colorado

10. McKinnon, Daniel Devaud. Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics.

Degree: PhD, Chemical & Biochemical Engineering, 2014, University of Colorado

  This thesis focuses on studying the extension of motor axons through synthetic poly(ethylene glycol) PEG hydrogels that have been modified with biochemical functionalities to… (more)

Subjects/Keywords: Biomaterials; Hydrogel; Neuron; Polymer; Rheology; Viscoelastic; Biological Engineering; Polymer and Organic Materials; Polymer Chemistry

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APA (6th Edition):

McKinnon, D. D. (2014). Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/65

Chicago Manual of Style (16th Edition):

McKinnon, Daniel Devaud. “Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/65.

MLA Handbook (7th Edition):

McKinnon, Daniel Devaud. “Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics.” 2014. Web. 23 Mar 2019.

Vancouver:

McKinnon DD. Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/65.

Council of Science Editors:

McKinnon DD. Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/65


University of Colorado

11. Williams, Rhea Marie. Determining Oxygen’s Effects on Multifunctional Alcohol Decomposition on Pd(111).

Degree: PhD, Chemical & Biochemical Engineering, 2014, University of Colorado

  Oxidation of alcohols and aldehydes is one route to value-added chemicals from biomass. Because catalytic oxidation reactions on transition metals usually involve participation of… (more)

Subjects/Keywords: deoxygenation; selective oxidation; surface chemistry; surface science; thermal desorption; vibrational spectroscopy; Chemical Engineering; Physical Chemistry

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APA (6th Edition):

Williams, R. M. (2014). Determining Oxygen’s Effects on Multifunctional Alcohol Decomposition on Pd(111). (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/66

Chicago Manual of Style (16th Edition):

Williams, Rhea Marie. “Determining Oxygen’s Effects on Multifunctional Alcohol Decomposition on Pd(111).” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/66.

MLA Handbook (7th Edition):

Williams, Rhea Marie. “Determining Oxygen’s Effects on Multifunctional Alcohol Decomposition on Pd(111).” 2014. Web. 23 Mar 2019.

Vancouver:

Williams RM. Determining Oxygen’s Effects on Multifunctional Alcohol Decomposition on Pd(111). [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/66.

Council of Science Editors:

Williams RM. Determining Oxygen’s Effects on Multifunctional Alcohol Decomposition on Pd(111). [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/66


University of Colorado

12. Gandavarapu, Navakanth Reddy. Engineering Poly(ethylene glycol) hydrogel microenvironment for osteogenic differentiation of human mesenchymal stem cells.

Degree: PhD, Chemical & Biochemical Engineering, 2013, University of Colorado

  Poly(ethylene glycol) (PEG)-based hydrogels have emerged as important class of biomaterials for use as cell and drug delivery vehicles for tissue engineering and also… (more)

Subjects/Keywords: cell culture; Hydrogels; Lithography; Mensenchymal stem cells; Osteogenic differentiation; patterning; Biochemical and Biomolecular Engineering; Chemical Engineering; Chemistry

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APA (6th Edition):

Gandavarapu, N. R. (2013). Engineering Poly(ethylene glycol) hydrogel microenvironment for osteogenic differentiation of human mesenchymal stem cells. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/68

Chicago Manual of Style (16th Edition):

Gandavarapu, Navakanth Reddy. “Engineering Poly(ethylene glycol) hydrogel microenvironment for osteogenic differentiation of human mesenchymal stem cells.” 2013. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/68.

MLA Handbook (7th Edition):

Gandavarapu, Navakanth Reddy. “Engineering Poly(ethylene glycol) hydrogel microenvironment for osteogenic differentiation of human mesenchymal stem cells.” 2013. Web. 23 Mar 2019.

Vancouver:

Gandavarapu NR. Engineering Poly(ethylene glycol) hydrogel microenvironment for osteogenic differentiation of human mesenchymal stem cells. [Internet] [Doctoral dissertation]. University of Colorado; 2013. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/68.

Council of Science Editors:

Gandavarapu NR. Engineering Poly(ethylene glycol) hydrogel microenvironment for osteogenic differentiation of human mesenchymal stem cells. [Doctoral Dissertation]. University of Colorado; 2013. Available from: http://scholar.colorado.edu/chbe_gradetds/68


University of Colorado

13. Langdon, Blake Brianna. Real-time single-molecule observations of proteins at the solid-liquid interface.

Degree: PhD, Chemical & Biochemical Engineering, 2014, University of Colorado

  Non-specific protein adsorption to solid surfaces is pervasive and observed across a broad spectrum of applications including biomaterials, separations, pharmaceuticals, and biosensing. Despite great… (more)

Subjects/Keywords: protein adsorption; protein aggregation; solid-liquid interface; surface hydrophobicity; total internal reflection fluorescence microscopy; Biomedical Engineering and Bioengineering; Biophysics; Nanoscience and Nanotechnology

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APA (6th Edition):

Langdon, B. B. (2014). Real-time single-molecule observations of proteins at the solid-liquid interface. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/71

Chicago Manual of Style (16th Edition):

Langdon, Blake Brianna. “Real-time single-molecule observations of proteins at the solid-liquid interface.” 2014. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/71.

MLA Handbook (7th Edition):

Langdon, Blake Brianna. “Real-time single-molecule observations of proteins at the solid-liquid interface.” 2014. Web. 23 Mar 2019.

Vancouver:

Langdon BB. Real-time single-molecule observations of proteins at the solid-liquid interface. [Internet] [Doctoral dissertation]. University of Colorado; 2014. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/71.

Council of Science Editors:

Langdon BB. Real-time single-molecule observations of proteins at the solid-liquid interface. [Doctoral Dissertation]. University of Colorado; 2014. Available from: http://scholar.colorado.edu/chbe_gradetds/71


University of Colorado

14. Tokuda, Emi Yuriko. Regulation of melanoma cell survival and function by matricellular signaling and microenvironmental factors.

Degree: PhD, Chemical & Biochemical Engineering, 2015, University of Colorado

  Metastatic melanoma is an aggressive, drug resistant form of skin cancer. Despite the recent development of several new therapeutics, patients typically relapse within 6… (more)

Subjects/Keywords: 3D; drug resistance; ECM; hydrogel; cell morphology; cell migration; Biomedical Engineering and Bioengineering; Chemical Engineering; Oncology

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APA (6th Edition):

Tokuda, E. Y. (2015). Regulation of melanoma cell survival and function by matricellular signaling and microenvironmental factors. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/77

Chicago Manual of Style (16th Edition):

Tokuda, Emi Yuriko. “Regulation of melanoma cell survival and function by matricellular signaling and microenvironmental factors.” 2015. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/77.

MLA Handbook (7th Edition):

Tokuda, Emi Yuriko. “Regulation of melanoma cell survival and function by matricellular signaling and microenvironmental factors.” 2015. Web. 23 Mar 2019.

Vancouver:

Tokuda EY. Regulation of melanoma cell survival and function by matricellular signaling and microenvironmental factors. [Internet] [Doctoral dissertation]. University of Colorado; 2015. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/77.

Council of Science Editors:

Tokuda EY. Regulation of melanoma cell survival and function by matricellular signaling and microenvironmental factors. [Doctoral Dissertation]. University of Colorado; 2015. Available from: http://scholar.colorado.edu/chbe_gradetds/77


University of Colorado

15. Monserud, Jon H. Oligonucleotide Dynamics and Hybridization at Solid-Liquid Interfaces.

Degree: PhD, Chemical & Biochemical Engineering, 2015, University of Colorado

  Biosensors, and other diagnostic techniques, are dependent on the specific interactions of nucleotides on a functionalized surface. Here, we study oligonucleotide dynamics and hybridization… (more)

Subjects/Keywords: Chemical Engineering

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APA (6th Edition):

Monserud, J. H. (2015). Oligonucleotide Dynamics and Hybridization at Solid-Liquid Interfaces. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/78

Chicago Manual of Style (16th Edition):

Monserud, Jon H. “Oligonucleotide Dynamics and Hybridization at Solid-Liquid Interfaces.” 2015. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/78.

MLA Handbook (7th Edition):

Monserud, Jon H. “Oligonucleotide Dynamics and Hybridization at Solid-Liquid Interfaces.” 2015. Web. 23 Mar 2019.

Vancouver:

Monserud JH. Oligonucleotide Dynamics and Hybridization at Solid-Liquid Interfaces. [Internet] [Doctoral dissertation]. University of Colorado; 2015. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/78.

Council of Science Editors:

Monserud JH. Oligonucleotide Dynamics and Hybridization at Solid-Liquid Interfaces. [Doctoral Dissertation]. University of Colorado; 2015. Available from: http://scholar.colorado.edu/chbe_gradetds/78


University of Colorado

16. Singh, Samir Paul. Peptide Functionalized Poly(ethylene glycol) Hydrogels Deconstruct the Tumor Microenvironment.

Degree: PhD, Chemical & Biochemical Engineering, 2015, University of Colorado

  Tumor growth, progression, and metastasis are complex processes, which are poorly characterized. To design therapies capable of controlling the spread of cancer, a better… (more)

Subjects/Keywords: tumor growth; progression; metastasis; therapy; PEG hydrogel system; cell-cell interaction; cell-matrix; Biochemistry; Biophysics; Systems and Integrative Engineering

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APA (6th Edition):

Singh, S. P. (2015). Peptide Functionalized Poly(ethylene glycol) Hydrogels Deconstruct the Tumor Microenvironment. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/84

Chicago Manual of Style (16th Edition):

Singh, Samir Paul. “Peptide Functionalized Poly(ethylene glycol) Hydrogels Deconstruct the Tumor Microenvironment.” 2015. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/84.

MLA Handbook (7th Edition):

Singh, Samir Paul. “Peptide Functionalized Poly(ethylene glycol) Hydrogels Deconstruct the Tumor Microenvironment.” 2015. Web. 23 Mar 2019.

Vancouver:

Singh SP. Peptide Functionalized Poly(ethylene glycol) Hydrogels Deconstruct the Tumor Microenvironment. [Internet] [Doctoral dissertation]. University of Colorado; 2015. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/84.

Council of Science Editors:

Singh SP. Peptide Functionalized Poly(ethylene glycol) Hydrogels Deconstruct the Tumor Microenvironment. [Doctoral Dissertation]. University of Colorado; 2015. Available from: http://scholar.colorado.edu/chbe_gradetds/84


University of Colorado

17. McUmber, Aaron Christopher. Understanding How Non-Covalent Interactions Affect Interfacial Biomolecular Dynamics.

Degree: PhD, Chemical & Biochemical Engineering, 2015, University of Colorado

  Biopolymers, such as proteins and nucleic acids, are omnipresent in modern applications. The need to control interfacial molecular systems is becoming increasingly important in… (more)

Subjects/Keywords: Aggregation; Interface; Nucleic Acid; Protein; Single Molecule; TIRFM; Biochemical and Biomolecular Engineering

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APA (6th Edition):

McUmber, A. C. (2015). Understanding How Non-Covalent Interactions Affect Interfacial Biomolecular Dynamics. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/88

Chicago Manual of Style (16th Edition):

McUmber, Aaron Christopher. “Understanding How Non-Covalent Interactions Affect Interfacial Biomolecular Dynamics.” 2015. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/88.

MLA Handbook (7th Edition):

McUmber, Aaron Christopher. “Understanding How Non-Covalent Interactions Affect Interfacial Biomolecular Dynamics.” 2015. Web. 23 Mar 2019.

Vancouver:

McUmber AC. Understanding How Non-Covalent Interactions Affect Interfacial Biomolecular Dynamics. [Internet] [Doctoral dissertation]. University of Colorado; 2015. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/88.

Council of Science Editors:

McUmber AC. Understanding How Non-Covalent Interactions Affect Interfacial Biomolecular Dynamics. [Doctoral Dissertation]. University of Colorado; 2015. Available from: http://scholar.colorado.edu/chbe_gradetds/88


University of Colorado

18. Nordwald, Erik Michael. Engineering ionic liquid tolerant enzymes.

Degree: PhD, Chemical & Biochemical Engineering, 2015, University of Colorado

  As media for biocatalysis, imidazolium based ionic liquids (ILs) have many applications, including improving enzyme refolding, selectivity, and replacing organic solvents as either the… (more)

Subjects/Keywords: Biocatalysis; Ionic Liquids; Protein Engineering; Biochemistry; Chemical Engineering

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APA (6th Edition):

Nordwald, E. M. (2015). Engineering ionic liquid tolerant enzymes. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/89

Chicago Manual of Style (16th Edition):

Nordwald, Erik Michael. “Engineering ionic liquid tolerant enzymes.” 2015. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/89.

MLA Handbook (7th Edition):

Nordwald, Erik Michael. “Engineering ionic liquid tolerant enzymes.” 2015. Web. 23 Mar 2019.

Vancouver:

Nordwald EM. Engineering ionic liquid tolerant enzymes. [Internet] [Doctoral dissertation]. University of Colorado; 2015. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/89.

Council of Science Editors:

Nordwald EM. Engineering ionic liquid tolerant enzymes. [Doctoral Dissertation]. University of Colorado; 2015. Available from: http://scholar.colorado.edu/chbe_gradetds/89


University of Colorado

19. MacConaghy, Kelsey Irene. Molecular Design and Engineering of Photonic Crystal Hydrogels for Biosensing Applications.

Degree: PhD, Chemical & Biochemical Engineering, 2016, University of Colorado

  The rise of personalized medicine, increasing threat of bioterrorism, and growing concern of environmental pollutants necessitates the development of alternative biosensing techniques. Towards this… (more)

Subjects/Keywords: Hydrogel; Photonic Crystal; Sensor; dna detection; single detection; epigenetics; Biochemical and Biomolecular Engineering

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APA (6th Edition):

MacConaghy, K. I. (2016). Molecular Design and Engineering of Photonic Crystal Hydrogels for Biosensing Applications. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/chbe_gradetds/96

Chicago Manual of Style (16th Edition):

MacConaghy, Kelsey Irene. “Molecular Design and Engineering of Photonic Crystal Hydrogels for Biosensing Applications.” 2016. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/chbe_gradetds/96.

MLA Handbook (7th Edition):

MacConaghy, Kelsey Irene. “Molecular Design and Engineering of Photonic Crystal Hydrogels for Biosensing Applications.” 2016. Web. 23 Mar 2019.

Vancouver:

MacConaghy KI. Molecular Design and Engineering of Photonic Crystal Hydrogels for Biosensing Applications. [Internet] [Doctoral dissertation]. University of Colorado; 2016. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/chbe_gradetds/96.

Council of Science Editors:

MacConaghy KI. Molecular Design and Engineering of Photonic Crystal Hydrogels for Biosensing Applications. [Doctoral Dissertation]. University of Colorado; 2016. Available from: http://scholar.colorado.edu/chbe_gradetds/96


University of Colorado

20. Brasino, Michael David. Engineering of Filamentous Bacteriophage for Protein Sensing.

Degree: PhD, Materials Science and Engineering, 2016, University of Colorado

 Methods of high throughput, sensitive and cost effective quantification of proteins enables personalized medicine by allowing healthcare professionals to better monitor patient condition and response… (more)

Subjects/Keywords: Bacteriophage; Phage; Sensor; biological engineering; genetic engineering; Biochemistry; Biomedical Engineering and Bioengineering; Materials Science and Engineering

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APA (6th Edition):

Brasino, M. D. (2016). Engineering of Filamentous Bacteriophage for Protein Sensing. (Doctoral Dissertation). University of Colorado. Retrieved from http://scholar.colorado.edu/mats_gradetds/4

Chicago Manual of Style (16th Edition):

Brasino, Michael David. “Engineering of Filamentous Bacteriophage for Protein Sensing.” 2016. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. http://scholar.colorado.edu/mats_gradetds/4.

MLA Handbook (7th Edition):

Brasino, Michael David. “Engineering of Filamentous Bacteriophage for Protein Sensing.” 2016. Web. 23 Mar 2019.

Vancouver:

Brasino MD. Engineering of Filamentous Bacteriophage for Protein Sensing. [Internet] [Doctoral dissertation]. University of Colorado; 2016. [cited 2019 Mar 23]. Available from: http://scholar.colorado.edu/mats_gradetds/4.

Council of Science Editors:

Brasino MD. Engineering of Filamentous Bacteriophage for Protein Sensing. [Doctoral Dissertation]. University of Colorado; 2016. Available from: http://scholar.colorado.edu/mats_gradetds/4


University of Colorado

21. Chado, Garrett R. Nanostructured Polymeric Materials and Their Implementation in Enhancing Biocatalytic Processes.

Degree: PhD, 2018, University of Colorado

  Polymer science has played a pivotal role in the development of nanotechnology. Self-assembly of polymeric materials at the molecular-level enables the fabrication of periodic… (more)

Subjects/Keywords: biocatalysis; block copolymer; enzyme; enzyme-polymer conjugate; ionic liquid; polymer modification; Chemical Engineering; Nanotechnology

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APA (6th Edition):

Chado, G. R. (2018). Nanostructured Polymeric Materials and Their Implementation in Enhancing Biocatalytic Processes. (Doctoral Dissertation). University of Colorado. Retrieved from https://scholar.colorado.edu/chbe_gradetds/130

Chicago Manual of Style (16th Edition):

Chado, Garrett R. “Nanostructured Polymeric Materials and Their Implementation in Enhancing Biocatalytic Processes.” 2018. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. https://scholar.colorado.edu/chbe_gradetds/130.

MLA Handbook (7th Edition):

Chado, Garrett R. “Nanostructured Polymeric Materials and Their Implementation in Enhancing Biocatalytic Processes.” 2018. Web. 23 Mar 2019.

Vancouver:

Chado GR. Nanostructured Polymeric Materials and Their Implementation in Enhancing Biocatalytic Processes. [Internet] [Doctoral dissertation]. University of Colorado; 2018. [cited 2019 Mar 23]. Available from: https://scholar.colorado.edu/chbe_gradetds/130.

Council of Science Editors:

Chado GR. Nanostructured Polymeric Materials and Their Implementation in Enhancing Biocatalytic Processes. [Doctoral Dissertation]. University of Colorado; 2018. Available from: https://scholar.colorado.edu/chbe_gradetds/130


University of Colorado

22. Aziz, Aaron H. Biomimetic Hydrogels to Support Bone Development for Osteochondral Tissue Engineering Applications.

Degree: PhD, 2018, University of Colorado

  Osteochondral tissue engineering using multilayer hydrogel scaffolds to recapitulate the native layered structure serves as a promising strategy to repair and regenerate osteochondral defects… (more)

Subjects/Keywords: biomimetic; compressive loading; multilayered; osteochondral; poly(ethylene glycol) (peg) hydrogels; tissue engineering; Biomedical Engineering and Bioengineering; Tissues

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APA (6th Edition):

Aziz, A. H. (2018). Biomimetic Hydrogels to Support Bone Development for Osteochondral Tissue Engineering Applications. (Doctoral Dissertation). University of Colorado. Retrieved from https://scholar.colorado.edu/chbe_gradetds/122

Chicago Manual of Style (16th Edition):

Aziz, Aaron H. “Biomimetic Hydrogels to Support Bone Development for Osteochondral Tissue Engineering Applications.” 2018. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. https://scholar.colorado.edu/chbe_gradetds/122.

MLA Handbook (7th Edition):

Aziz, Aaron H. “Biomimetic Hydrogels to Support Bone Development for Osteochondral Tissue Engineering Applications.” 2018. Web. 23 Mar 2019.

Vancouver:

Aziz AH. Biomimetic Hydrogels to Support Bone Development for Osteochondral Tissue Engineering Applications. [Internet] [Doctoral dissertation]. University of Colorado; 2018. [cited 2019 Mar 23]. Available from: https://scholar.colorado.edu/chbe_gradetds/122.

Council of Science Editors:

Aziz AH. Biomimetic Hydrogels to Support Bone Development for Osteochondral Tissue Engineering Applications. [Doctoral Dissertation]. University of Colorado; 2018. Available from: https://scholar.colorado.edu/chbe_gradetds/122


University of Colorado

23. Sorret, Lea Line Gisele. The Role of Protein-Protein Interactions in Inducing Interfacial Aggregation.

Degree: PhD, 2018, University of Colorado

  The synergic exposure to silicone oil-water interfaces and to agitation has been shown to promote the aggregation of therapeutic proteins. Silicone oil is typically… (more)

Subjects/Keywords: adsorption; interfaces; protein aggregation; protein stability; rheology; Biological Engineering; Chemical Engineering

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APA · Chicago · MLA · Vancouver · CSE | Export to Zotero / EndNote / Reference Manager

APA (6th Edition):

Sorret, L. L. G. (2018). The Role of Protein-Protein Interactions in Inducing Interfacial Aggregation. (Doctoral Dissertation). University of Colorado. Retrieved from https://scholar.colorado.edu/chbe_gradetds/117

Chicago Manual of Style (16th Edition):

Sorret, Lea Line Gisele. “The Role of Protein-Protein Interactions in Inducing Interfacial Aggregation.” 2018. Doctoral Dissertation, University of Colorado. Accessed March 23, 2019. https://scholar.colorado.edu/chbe_gradetds/117.

MLA Handbook (7th Edition):

Sorret, Lea Line Gisele. “The Role of Protein-Protein Interactions in Inducing Interfacial Aggregation.” 2018. Web. 23 Mar 2019.

Vancouver:

Sorret LLG. The Role of Protein-Protein Interactions in Inducing Interfacial Aggregation. [Internet] [Doctoral dissertation]. University of Colorado; 2018. [cited 2019 Mar 23]. Available from: https://scholar.colorado.edu/chbe_gradetds/117.

Council of Science Editors:

Sorret LLG. The Role of Protein-Protein Interactions in Inducing Interfacial Aggregation. [Doctoral Dissertation]. University of Colorado; 2018. Available from: https://scholar.colorado.edu/chbe_gradetds/117

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