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Full-Text Articles in Mechanical Engineering
Nanosheets Of Cuco₂O₄ As A High-Performance Electrocatalyst In Urea Oxidation, Camila Zequine, Ram K. Gupta, Pawan K. Kahol
Nanosheets Of Cuco₂O₄ As A High-Performance Electrocatalyst In Urea Oxidation, Camila Zequine, Ram K. Gupta, Pawan K. Kahol
Posters
The urea oxidation reaction (UOR) is a possible solution to solve the world’s energy crisis. Fuel cells have been used in the UOR to generate hydrogen with a lower potential compared to water splitting, decreasing the costs of energy production. Urea is abundantly present in agricultural waste and in industrial and human wastewater. Besides generating hydrogen, this reaction provides a pathway to eliminate urea, which is a hazard in the environment and to people’s health. In this study, nanosheets of CuCo₂O₄ grown on nickel foam were synthesized as an electrocatalyst for urea oxidation to generate hydrogen as a green fuel. …
Metal-Doped Catalysts For Hydrogen Evolution Reaction, Tucker Morey, Ram K. Gupta, Pawan K. Kahol
Metal-Doped Catalysts For Hydrogen Evolution Reaction, Tucker Morey, Ram K. Gupta, Pawan K. Kahol
Posters
The highly efficient electrochemical hydrogen evolution reaction (HER) provides a promising way to solve energy and environment problems. In this work, various transition metals (Fe, Co, Ni, Cu, Ag, and Pt) were selected to support on molybdenum carbides by a simple organic-inorganic precursor carburization process. X-ray diffraction (XRD) analysis results indicated that the ß-MO₂C phase was formed in all metal-doped samples. X-ray photoelectron spectroscopy analysis indicated that the binding energy of MO₂+ species (MO₂C) shifted to a lower value after metal was doped on the molybdenum carbide surface. Comparing with pure ß-MO₂C, the electrocatalytic activity for HER was improved by …
Almond Based Electrocatalyst For Fuel Cell Applications, Kinsey Morey, Tucker Morey, Brooks Neria, Khamis Siam, Pawan K. Kahol
Almond Based Electrocatalyst For Fuel Cell Applications, Kinsey Morey, Tucker Morey, Brooks Neria, Khamis Siam, Pawan K. Kahol
Posters
Hydrogen is considered one of the cleanest energy sources. Water spitting is one of the efficient ways to produce hydrogen as a fuel at the industrial level. Water splitting via electrolysis requires an efficient electrocatalyst to reduce the voltage required for water splitting. Currently, precious metals such as platinum are considered as one of the most efficient electrocatalysts for hydrogen production via electrolysis of water. The current challenge is to find a cost-effective alternative for this process. Molybdenum and carbon are low cost and abundant materials which could be used for the synthesis of cost-effective electrocatalysts for hydrogen production. In …
Electrocatalytic Properties Of Lanthanum-Based Perovskites For Water Splitting And Energy Storage Applications, Xavier R. Martinez, Khamis Siam, Pawan K. Kahol, Ram K. Gupta
Electrocatalytic Properties Of Lanthanum-Based Perovskites For Water Splitting And Energy Storage Applications, Xavier R. Martinez, Khamis Siam, Pawan K. Kahol, Ram K. Gupta
Posters
Recent changes in global weather patterns have punctuated the need for mollification through a cleaner energy option. As part of the plan, hydrogen production for fuel cells offers substantial power without carbon emissions. Overall water splitting, with the aid of a low cost electrocatalyst could prove to be an abundant green fuel source. Utilizing readily available transition metals, three perovskite nanostructures were studied as a multifunctional material for hydrogen production as well as energy storage. LaCoO₃ (LCO), LaFeO₃ (LFO), and LaMnO₃ (LMO) were synthesized and characterized by X-ray diffraction and then dip coated onto nickel foam as electrodes in a …
Molybdenum Oxides For Energy Generation And Storage Using Efficient Clean Method, Camila Zequine, Pawan K. Kahol, Ram K. Gupta
Molybdenum Oxides For Energy Generation And Storage Using Efficient Clean Method, Camila Zequine, Pawan K. Kahol, Ram K. Gupta
Posters
To solve the growing energy issues, significant efforts have been focused on the search of earth-abundant elements that can provide multifunctional behavior for both energy generation and storage. Due to the low-cost and rich chemical nature, transition metal oxide nanostructures have been used in the fabrication of energy devices, such as fuel cells and lithium batteries. In this work, nickel, cobalt and iron molybdates were synthesized via a simple hydrothermal method in order to fabricate electrodes for oxygen evolution reaction (OER) and a supercapacitor. FeMoO₄ required an overpotential of 294 mV to achieve a current density of 10 mA/cm2 for …
Implementation Of Solar Car Technology, Greg Mccartney, Marcus Allen, Dedrick Cooper, Lelan Delissa, Eric Mayer
Implementation Of Solar Car Technology, Greg Mccartney, Marcus Allen, Dedrick Cooper, Lelan Delissa, Eric Mayer
Posters
Under the leadership of Dr. Erik Mayer, Pittsburg State University hosted the first Kansas Solar Race Competition. The purpose of this competition is to motivate students to learn about different aspects of solar car technology. The competition motivates students by bringing multiple teams together in a friendly competition to test out their uniquely engineered and constructed wireless cars. The cars will compete in different competitions such as an agility competition and a drag race. After the competition, the students are able to learn from the ingenuity of other teams and spark a curiosity to continue to learn about solar car …
Construction Of High-Performance 3d Nanostructured Flower-Like Iron-Nickel Sulfide For Supercapacitor, Chen Zhao, Sanket Bhoyate, Chunyang Zhang, Ram K. Gupta, Pawan K. Kahol
Construction Of High-Performance 3d Nanostructured Flower-Like Iron-Nickel Sulfide For Supercapacitor, Chen Zhao, Sanket Bhoyate, Chunyang Zhang, Ram K. Gupta, Pawan K. Kahol
Posters
The global energy crisis and environmental pollution have stimulated increasing attention to developing clean and renewable alternative energy sources. One of the most efficient and greenest energy storage devices is supercapacitor which could store energy via electrical double layer and redox reactions. Supercapacitors are widely employed for many portable electronics and hybrid electric vehicles due to their high-power density, fast charge-discharge rate, and good cycle stability. In this work, 3D nanostructured flower-like iron-nickel sulfide was synthesized on the nickel foam using a facile hydrothermal method. The iron-nickel sulfide electrode showed outstanding performance for supercapacitor with a high areal capacitance of …