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You searched for +publisher:"University of Connecticut" +contributor:("Baikun Li"). Showing records 1 – 12 of 12 total matches.

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University of Connecticut

1. zhou, wangchi. High-resolution profiling of Soil Moisture Using Flat Thin Mm-sized Soil Moisture Sensors (MSMSs).

Degree: MS, Environmental Engineering, 2018, University of Connecticut

  This MS thesis research has focused on the profiling feasibility of flat thin mm-sized soil moisture sensor (termed as MSMS) through field tests at… (more)

Subjects/Keywords: MSMS; soil moisture; profiling

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APA (6th Edition):

zhou, w. (2018). High-resolution profiling of Soil Moisture Using Flat Thin Mm-sized Soil Moisture Sensors (MSMSs). (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/1320

Chicago Manual of Style (16th Edition):

zhou, wangchi. “High-resolution profiling of Soil Moisture Using Flat Thin Mm-sized Soil Moisture Sensors (MSMSs).” 2018. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/1320.

MLA Handbook (7th Edition):

zhou, wangchi. “High-resolution profiling of Soil Moisture Using Flat Thin Mm-sized Soil Moisture Sensors (MSMSs).” 2018. Web. 26 Jun 2019.

Vancouver:

zhou w. High-resolution profiling of Soil Moisture Using Flat Thin Mm-sized Soil Moisture Sensors (MSMSs). [Internet] [Masters thesis]. University of Connecticut; 2018. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/1320.

Council of Science Editors:

zhou w. High-resolution profiling of Soil Moisture Using Flat Thin Mm-sized Soil Moisture Sensors (MSMSs). [Masters Thesis]. University of Connecticut; 2018. Available from: https://opencommons.uconn.edu/gs_theses/1320


University of Connecticut

2. Han, Yi. Tailoring Electrospun Carbon Nanofiber Properties for Improving Chemical Sorption.

Degree: PhD, Environmental Engineering, 2018, University of Connecticut

  Activated carbon nanofiber (ACNF), as a novel electrospun polyacrylonitrile-based sorptive material, takes advantage of nanoscale fabrication to reduce mass transfer limitations while maintaining a… (more)

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APA (6th Edition):

Han, Y. (2018). Tailoring Electrospun Carbon Nanofiber Properties for Improving Chemical Sorption. (Doctoral Dissertation). University of Connecticut. Retrieved from https://opencommons.uconn.edu/dissertations/1998

Chicago Manual of Style (16th Edition):

Han, Yi. “Tailoring Electrospun Carbon Nanofiber Properties for Improving Chemical Sorption.” 2018. Doctoral Dissertation, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/dissertations/1998.

MLA Handbook (7th Edition):

Han, Yi. “Tailoring Electrospun Carbon Nanofiber Properties for Improving Chemical Sorption.” 2018. Web. 26 Jun 2019.

Vancouver:

Han Y. Tailoring Electrospun Carbon Nanofiber Properties for Improving Chemical Sorption. [Internet] [Doctoral dissertation]. University of Connecticut; 2018. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/dissertations/1998.

Council of Science Editors:

Han Y. Tailoring Electrospun Carbon Nanofiber Properties for Improving Chemical Sorption. [Doctoral Dissertation]. University of Connecticut; 2018. Available from: https://opencommons.uconn.edu/dissertations/1998


University of Connecticut

3. Zhang, Xiaolong. Investigation of Hexavalent Chromium Reduction by Aerobic Bacteria in Water and Soil.

Degree: MS, Environmental Engineering, 2011, University of Connecticut

  Hexavalent chromium (Cr(VI)) has been identified as a high priority pollutant by the U.S. Environmental Protection Agency because of its high toxicity and carcinogenicity.… (more)

Subjects/Keywords: hexavalent chromium; aerobic bacteria; bioremediation

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APA (6th Edition):

Zhang, X. (2011). Investigation of Hexavalent Chromium Reduction by Aerobic Bacteria in Water and Soil. (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/40

Chicago Manual of Style (16th Edition):

Zhang, Xiaolong. “Investigation of Hexavalent Chromium Reduction by Aerobic Bacteria in Water and Soil.” 2011. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/40.

MLA Handbook (7th Edition):

Zhang, Xiaolong. “Investigation of Hexavalent Chromium Reduction by Aerobic Bacteria in Water and Soil.” 2011. Web. 26 Jun 2019.

Vancouver:

Zhang X. Investigation of Hexavalent Chromium Reduction by Aerobic Bacteria in Water and Soil. [Internet] [Masters thesis]. University of Connecticut; 2011. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/40.

Council of Science Editors:

Zhang X. Investigation of Hexavalent Chromium Reduction by Aerobic Bacteria in Water and Soil. [Masters Thesis]. University of Connecticut; 2011. Available from: https://opencommons.uconn.edu/gs_theses/40


University of Connecticut

4. Li, Xiang. MANGANESE OXIDE AS A NEW CATHODE CATALYST IN MICROBIAL FUEL CELLS (MFCs).

Degree: MS, Environmental Engineering, 2011, University of Connecticut

 This study focused on manganese oxides with a cryptomelane-type octahedral molecular sieve (OMS-2) structure to replace platinum as a cathode catalyst in microbial fuel cells… (more)

Subjects/Keywords: Microbial fuel cells; manganese dioxides; octahedral molecular sieves; cathodic catalyst; continuous flow; operation condition effect

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APA (6th Edition):

Li, X. (2011). MANGANESE OXIDE AS A NEW CATHODE CATALYST IN MICROBIAL FUEL CELLS (MFCs). (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/39

Chicago Manual of Style (16th Edition):

Li, Xiang. “MANGANESE OXIDE AS A NEW CATHODE CATALYST IN MICROBIAL FUEL CELLS (MFCs).” 2011. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/39.

MLA Handbook (7th Edition):

Li, Xiang. “MANGANESE OXIDE AS A NEW CATHODE CATALYST IN MICROBIAL FUEL CELLS (MFCs).” 2011. Web. 26 Jun 2019.

Vancouver:

Li X. MANGANESE OXIDE AS A NEW CATHODE CATALYST IN MICROBIAL FUEL CELLS (MFCs). [Internet] [Masters thesis]. University of Connecticut; 2011. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/39.

Council of Science Editors:

Li X. MANGANESE OXIDE AS A NEW CATHODE CATALYST IN MICROBIAL FUEL CELLS (MFCs). [Masters Thesis]. University of Connecticut; 2011. Available from: https://opencommons.uconn.edu/gs_theses/39


University of Connecticut

5. Huang, Shan. Glucose Biosensor Using Electrospun Mn2O3-Ag Nanofibers.

Degree: MS, Biomedical Engineering, 2011, University of Connecticut

  The highly porous Mn2O3-Ag nanofibers were fabricated by a facile two-step procedure (electrospinning and calcination) and then employed as the immobilization matrix for glucose… (more)

Subjects/Keywords: Diabetes; Glucose; GOD; Maganese Oxide

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APA (6th Edition):

Huang, S. (2011). Glucose Biosensor Using Electrospun Mn2O3-Ag Nanofibers. (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/147

Chicago Manual of Style (16th Edition):

Huang, Shan. “Glucose Biosensor Using Electrospun Mn2O3-Ag Nanofibers.” 2011. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/147.

MLA Handbook (7th Edition):

Huang, Shan. “Glucose Biosensor Using Electrospun Mn2O3-Ag Nanofibers.” 2011. Web. 26 Jun 2019.

Vancouver:

Huang S. Glucose Biosensor Using Electrospun Mn2O3-Ag Nanofibers. [Internet] [Masters thesis]. University of Connecticut; 2011. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/147.

Council of Science Editors:

Huang S. Glucose Biosensor Using Electrospun Mn2O3-Ag Nanofibers. [Masters Thesis]. University of Connecticut; 2011. Available from: https://opencommons.uconn.edu/gs_theses/147


University of Connecticut

6. Grulke, Eric David. The Effects of Ion Substitution on Perovskite Film Degradation in Controlled Humidity Environments.

Degree: M. Eng., Environmental Engineering, 2016, University of Connecticut

  The demand for clean, renewable energy grows constantly as time progresses and harvesting solar energy has been identified as one of the key pieces… (more)

Subjects/Keywords: perovskite degradation humidity ion substitution bromine formamidinium

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APA (6th Edition):

Grulke, E. D. (2016). The Effects of Ion Substitution on Perovskite Film Degradation in Controlled Humidity Environments. (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/894

Chicago Manual of Style (16th Edition):

Grulke, Eric David. “The Effects of Ion Substitution on Perovskite Film Degradation in Controlled Humidity Environments.” 2016. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/894.

MLA Handbook (7th Edition):

Grulke, Eric David. “The Effects of Ion Substitution on Perovskite Film Degradation in Controlled Humidity Environments.” 2016. Web. 26 Jun 2019.

Vancouver:

Grulke ED. The Effects of Ion Substitution on Perovskite Film Degradation in Controlled Humidity Environments. [Internet] [Masters thesis]. University of Connecticut; 2016. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/894.

Council of Science Editors:

Grulke ED. The Effects of Ion Substitution on Perovskite Film Degradation in Controlled Humidity Environments. [Masters Thesis]. University of Connecticut; 2016. Available from: https://opencommons.uconn.edu/gs_theses/894


University of Connecticut

7. Podany, Michael V, Mr. Investigation of In-situ Immobilization of Contaminated Sediments using Alginate Gels for the Reduction of Ecological Risk.

Degree: MS, Environmental Engineering, 2012, University of Connecticut

  Remediation methods for contaminated sediments include dredging, treatment and disposal and sediment isolation through capping. These methods are costly and adversely impact local ecosystems,… (more)

Subjects/Keywords: alginate; sediment; remediation; in-situ

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APA (6th Edition):

Podany, Michael V, M. (2012). Investigation of In-situ Immobilization of Contaminated Sediments using Alginate Gels for the Reduction of Ecological Risk. (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/371

Chicago Manual of Style (16th Edition):

Podany, Michael V, Mr. “Investigation of In-situ Immobilization of Contaminated Sediments using Alginate Gels for the Reduction of Ecological Risk.” 2012. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/371.

MLA Handbook (7th Edition):

Podany, Michael V, Mr. “Investigation of In-situ Immobilization of Contaminated Sediments using Alginate Gels for the Reduction of Ecological Risk.” 2012. Web. 26 Jun 2019.

Vancouver:

Podany, Michael V M. Investigation of In-situ Immobilization of Contaminated Sediments using Alginate Gels for the Reduction of Ecological Risk. [Internet] [Masters thesis]. University of Connecticut; 2012. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/371.

Council of Science Editors:

Podany, Michael V M. Investigation of In-situ Immobilization of Contaminated Sediments using Alginate Gels for the Reduction of Ecological Risk. [Masters Thesis]. University of Connecticut; 2012. Available from: https://opencommons.uconn.edu/gs_theses/371


University of Connecticut

8. Li, Yan. Treating Wastes with Microbial Fuel Cells(MFCs) and Microbial Electrolysis Cells(MECs).

Degree: MS, Environmental Engineering, 2014, University of Connecticut

  Two typical oxidized-status metals (Fe (III) and Cr (VI)) were studied as electron acceptors on cathodes in single chamber microbial fuel cells (SCMFCs) to… (more)

Subjects/Keywords: oxidized-status metals; single chamber microbial fuel cells (SCMFCs); metal inhibition; power generation; liner sweep voltammetry (LSV)

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APA (6th Edition):

Li, Y. (2014). Treating Wastes with Microbial Fuel Cells(MFCs) and Microbial Electrolysis Cells(MECs). (Masters Thesis). University of Connecticut. Retrieved from https://opencommons.uconn.edu/gs_theses/589

Chicago Manual of Style (16th Edition):

Li, Yan. “Treating Wastes with Microbial Fuel Cells(MFCs) and Microbial Electrolysis Cells(MECs).” 2014. Masters Thesis, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/gs_theses/589.

MLA Handbook (7th Edition):

Li, Yan. “Treating Wastes with Microbial Fuel Cells(MFCs) and Microbial Electrolysis Cells(MECs).” 2014. Web. 26 Jun 2019.

Vancouver:

Li Y. Treating Wastes with Microbial Fuel Cells(MFCs) and Microbial Electrolysis Cells(MECs). [Internet] [Masters thesis]. University of Connecticut; 2014. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/gs_theses/589.

Council of Science Editors:

Li Y. Treating Wastes with Microbial Fuel Cells(MFCs) and Microbial Electrolysis Cells(MECs). [Masters Thesis]. University of Connecticut; 2014. Available from: https://opencommons.uconn.edu/gs_theses/589


University of Connecticut

9. Karra, Udayarka. Energy Harvesting Applications of Novel Multi-Electrode Wastewater and Distributed-Benthic Microbial Fuel Cells.

Degree: PhD, Environmental Engineering, 2014, University of Connecticut

  Marine exploration is the foundation for understanding ocean systems with autonomous, distributed, underwater communication networks with remote sensing and monitoring. Currently, battery delivered power… (more)

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APA (6th Edition):

Karra, U. (2014). Energy Harvesting Applications of Novel Multi-Electrode Wastewater and Distributed-Benthic Microbial Fuel Cells. (Doctoral Dissertation). University of Connecticut. Retrieved from https://opencommons.uconn.edu/dissertations/501

Chicago Manual of Style (16th Edition):

Karra, Udayarka. “Energy Harvesting Applications of Novel Multi-Electrode Wastewater and Distributed-Benthic Microbial Fuel Cells.” 2014. Doctoral Dissertation, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/dissertations/501.

MLA Handbook (7th Edition):

Karra, Udayarka. “Energy Harvesting Applications of Novel Multi-Electrode Wastewater and Distributed-Benthic Microbial Fuel Cells.” 2014. Web. 26 Jun 2019.

Vancouver:

Karra U. Energy Harvesting Applications of Novel Multi-Electrode Wastewater and Distributed-Benthic Microbial Fuel Cells. [Internet] [Doctoral dissertation]. University of Connecticut; 2014. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/dissertations/501.

Council of Science Editors:

Karra U. Energy Harvesting Applications of Novel Multi-Electrode Wastewater and Distributed-Benthic Microbial Fuel Cells. [Doctoral Dissertation]. University of Connecticut; 2014. Available from: https://opencommons.uconn.edu/dissertations/501


University of Connecticut

10. Soundara Manickam, Seetha. Structural Characterization of Porous Materials: Understanding Mass Transport through Asymmetric Membranes during Forward Osmosis.

Degree: PhD, Chemical Engineering, 2014, University of Connecticut

  Engineered osmosis (EO) is an emerging membrane separations-based technology platform comprising of forward osmosis, pressure-retarded osmosis, and direct osmotic dilution/concentration processes. EO relies on… (more)

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APA (6th Edition):

Soundara Manickam, S. (2014). Structural Characterization of Porous Materials: Understanding Mass Transport through Asymmetric Membranes during Forward Osmosis. (Doctoral Dissertation). University of Connecticut. Retrieved from https://opencommons.uconn.edu/dissertations/636

Chicago Manual of Style (16th Edition):

Soundara Manickam, Seetha. “Structural Characterization of Porous Materials: Understanding Mass Transport through Asymmetric Membranes during Forward Osmosis.” 2014. Doctoral Dissertation, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/dissertations/636.

MLA Handbook (7th Edition):

Soundara Manickam, Seetha. “Structural Characterization of Porous Materials: Understanding Mass Transport through Asymmetric Membranes during Forward Osmosis.” 2014. Web. 26 Jun 2019.

Vancouver:

Soundara Manickam S. Structural Characterization of Porous Materials: Understanding Mass Transport through Asymmetric Membranes during Forward Osmosis. [Internet] [Doctoral dissertation]. University of Connecticut; 2014. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/dissertations/636.

Council of Science Editors:

Soundara Manickam S. Structural Characterization of Porous Materials: Understanding Mass Transport through Asymmetric Membranes during Forward Osmosis. [Doctoral Dissertation]. University of Connecticut; 2014. Available from: https://opencommons.uconn.edu/dissertations/636


University of Connecticut

11. Liu, Bingchuan. Exploring Microbial Fuel Cells (MFCs) as Self-Sustained Environmental “Shock” Biosensor and Reliable Power Source for Subsea Sensor Networks.

Degree: PhD, Environmental Engineering, 2015, University of Connecticut

  Microbial fuel cell (MFC) is a novel bioelectrochemical system capable of generating bioelectricity from degrading organic substances/pollutants (e.g. lake/ocean sediment, domestic/industrial waste stream), and… (more)

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APA (6th Edition):

Liu, B. (2015). Exploring Microbial Fuel Cells (MFCs) as Self-Sustained Environmental “Shock” Biosensor and Reliable Power Source for Subsea Sensor Networks. (Doctoral Dissertation). University of Connecticut. Retrieved from https://opencommons.uconn.edu/dissertations/688

Chicago Manual of Style (16th Edition):

Liu, Bingchuan. “Exploring Microbial Fuel Cells (MFCs) as Self-Sustained Environmental “Shock” Biosensor and Reliable Power Source for Subsea Sensor Networks.” 2015. Doctoral Dissertation, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/dissertations/688.

MLA Handbook (7th Edition):

Liu, Bingchuan. “Exploring Microbial Fuel Cells (MFCs) as Self-Sustained Environmental “Shock” Biosensor and Reliable Power Source for Subsea Sensor Networks.” 2015. Web. 26 Jun 2019.

Vancouver:

Liu B. Exploring Microbial Fuel Cells (MFCs) as Self-Sustained Environmental “Shock” Biosensor and Reliable Power Source for Subsea Sensor Networks. [Internet] [Doctoral dissertation]. University of Connecticut; 2015. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/dissertations/688.

Council of Science Editors:

Liu B. Exploring Microbial Fuel Cells (MFCs) as Self-Sustained Environmental “Shock” Biosensor and Reliable Power Source for Subsea Sensor Networks. [Doctoral Dissertation]. University of Connecticut; 2015. Available from: https://opencommons.uconn.edu/dissertations/688


University of Connecticut

12. Xu, Zhiheng. Real-time in Situ Monitoring of Water Systems Using Electrochemical Sensors.

Degree: PhD, Environmental Engineering, 2017, University of Connecticut

Archival abstract submitted Advisors/Committee Members: Baikun Li, Amvrossios C. Bagtzoglou, Jeffery R. McCutcheon, Guiling Wang.

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APA (6th Edition):

Xu, Z. (2017). Real-time in Situ Monitoring of Water Systems Using Electrochemical Sensors. (Doctoral Dissertation). University of Connecticut. Retrieved from https://opencommons.uconn.edu/dissertations/1421

Chicago Manual of Style (16th Edition):

Xu, Zhiheng. “Real-time in Situ Monitoring of Water Systems Using Electrochemical Sensors.” 2017. Doctoral Dissertation, University of Connecticut. Accessed June 26, 2019. https://opencommons.uconn.edu/dissertations/1421.

MLA Handbook (7th Edition):

Xu, Zhiheng. “Real-time in Situ Monitoring of Water Systems Using Electrochemical Sensors.” 2017. Web. 26 Jun 2019.

Vancouver:

Xu Z. Real-time in Situ Monitoring of Water Systems Using Electrochemical Sensors. [Internet] [Doctoral dissertation]. University of Connecticut; 2017. [cited 2019 Jun 26]. Available from: https://opencommons.uconn.edu/dissertations/1421.

Council of Science Editors:

Xu Z. Real-time in Situ Monitoring of Water Systems Using Electrochemical Sensors. [Doctoral Dissertation]. University of Connecticut; 2017. Available from: https://opencommons.uconn.edu/dissertations/1421

.