has been cited by the following article(s):
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MEMS, NEMS, AEMS, and Quantum Films for the Next Generation of Computing and Information Technology
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2021 |
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[2]
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Microfluidic Devices: Applications and Role of Surface Wettability in Its Fabrication
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2020 |
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[3]
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Sustainable Polymer-Based Microfluidic Fuel Cells for Low-Power Applications
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2019 |
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[4]
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Electrochemical and morphological studies of ionic polymer metal composites as stress sensors
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Measurement,
2017 |
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[5]
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CONSTRUCTION AND CHARACTERISATION OF A MICROBIAL FUEL CELL WITH SOIL MICROORGANISMS.
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Studia Universitatis Babes-Bolyai, Chemia,
2016 |
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[6]
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Ion transport in ionomeric polymers for ionic electroactive polymer devices
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2016 |
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[7]
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A paper-based microbial fuel cell operating under continuous flow condition
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Technology,
2016 |
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[8]
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Bioeconomy potential-focus on Northern Finland
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International Journal of Sustainable Economy,
2015 |
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[9]
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AN ANALYSIS OF CURRENT AND FUTURE WIND ENERGY GAIN POTENTIAL FOR CENTRAL IOWA
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2015 |
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[10]
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Paper-based devices for energy applications
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Renewable and Sustainable Energy Reviews,
2015 |
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[11]
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(Invited) From PEM Fuel Cell Design to Biological Fuel Cells: The Status of Systems Development for Biological Fuel Cells
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ECS Transactions,
2014 |
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[12]
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A Compact Versatile Microbial Fuel Cell From Paper
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ASME 2013 11th International Conference on Fuel Cell Science, Engineering and Technology collocated with the ASME 2013 Heat Transfer Summer Conference and the ASME 2013 7th International Conference on Energy Sustainability. American Society of Mechanical Engineers,
2013 |
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[13]
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Using Shewanella Oneidensis MR1 as a Biocatalyst in a Microscale Microbial Fuel Cell
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ASME 2013 11th International Conference on Fuel Cell Science, Engineering and Technology collocated with the ASME 2013 Heat Transfer Summer Conference and the ASME 2013 7th International Conference on Energy Sustainability. American Society of Mechanical Engineers,
2013 |
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[14]
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Miniaturized biological and electrochemical fuel cells: challenges and applications
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Physical Chemistry Chemical Physics,
2013 |
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