Additive manufacturing-based recycling of laboratory waste into energy harvesting device for self-powered applications
The laboratory waste produced in several parts of the world has scaled up the pollution and adverse effect on human health in the present era. The “3 R” (reduce, reuse, and recycle) scheme is adopted by many communities for efficiently recovering waste products and utilizing them for the production...
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Published in | Nano energy Vol. 88; p. 106255 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier Ltd
01.10.2021
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Abstract | The laboratory waste produced in several parts of the world has scaled up the pollution and adverse effect on human health in the present era. The “3 R” (reduce, reuse, and recycle) scheme is adopted by many communities for efficiently recovering waste products and utilizing them for the production of energy. In the present work, the laboratory waste is collected and directly utilized for fabricating a laboratory waste-based triboelectric nanogenerator (LW-TENG) operating in vertical contact-separation mode. The substrate, electrode, and triboelectric layer are randomly selected from lab waste. The waste plastic petri dishes were extruded into thin filament wires for 3D printing of the substrate for the LW-TENG. The effective electrical output is generated by LW-TENG having a triboelectric layer plastic-glass delivering voltage of 185 V, current of 1.25μA, and power density of 8.1μW/cm2 across the load resistance of 500 MΩ. The positive and negative triboelectric layers are altered and the electrical output is systematically investigated. Additionally, the LW-TENG device is attached to various locations of the laboratory to demonstrate the energy harvesting from the mechanical motions. It is also utilized for demonstrating real-time applications that could be beneficial as a self-powered human tracking device (HSD) that tracks the location of the human during an emergency and self-powered exercise counter.
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•Circular economy-Circumvention of laboratory waste to sustainable energy.•Straightforward and cost-effective 3D printing of plastics into devices.•Recycling of plastic wastes to develop LW-TENG device.•Demonstration of self-powered biomechanical energy harvesting applications. |
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AbstractList | The laboratory waste produced in several parts of the world has scaled up the pollution and adverse effect on human health in the present era. The “3 R” (reduce, reuse, and recycle) scheme is adopted by many communities for efficiently recovering waste products and utilizing them for the production of energy. In the present work, the laboratory waste is collected and directly utilized for fabricating a laboratory waste-based triboelectric nanogenerator (LW-TENG) operating in vertical contact-separation mode. The substrate, electrode, and triboelectric layer are randomly selected from lab waste. The waste plastic petri dishes were extruded into thin filament wires for 3D printing of the substrate for the LW-TENG. The effective electrical output is generated by LW-TENG having a triboelectric layer plastic-glass delivering voltage of 185 V, current of 1.25μA, and power density of 8.1μW/cm2 across the load resistance of 500 MΩ. The positive and negative triboelectric layers are altered and the electrical output is systematically investigated. Additionally, the LW-TENG device is attached to various locations of the laboratory to demonstrate the energy harvesting from the mechanical motions. It is also utilized for demonstrating real-time applications that could be beneficial as a self-powered human tracking device (HSD) that tracks the location of the human during an emergency and self-powered exercise counter.
[Display omitted]
•Circular economy-Circumvention of laboratory waste to sustainable energy.•Straightforward and cost-effective 3D printing of plastics into devices.•Recycling of plastic wastes to develop LW-TENG device.•Demonstration of self-powered biomechanical energy harvesting applications. |
ArticleNumber | 106255 |
Author | Kumar Mishra, Yogendra Sahu, Manisha Kim, Hoe Joon Kim, Hang-Gyeom Hajra, Sugato Rubahn, Horst-Günter |
Author_xml | – sequence: 1 givenname: Manisha surname: Sahu fullname: Sahu, Manisha email: manishasahu@dgist.ac.kr organization: Department of Robotics Engineering, Daegu Gyeongbuk Institute of Science and Technology, Daegu 42988, South Korea – sequence: 2 givenname: Sugato surname: Hajra fullname: Hajra, Sugato email: sugatohajra@dgist.ac.kr organization: Department of Robotics Engineering, Daegu Gyeongbuk Institute of Science and Technology, Daegu 42988, South Korea – sequence: 3 givenname: Hang-Gyeom surname: Kim fullname: Kim, Hang-Gyeom email: khg9312@dgist.ac.kr organization: Department of Robotics Engineering, Daegu Gyeongbuk Institute of Science and Technology, Daegu 42988, South Korea – sequence: 4 givenname: Horst-Günter surname: Rubahn fullname: Rubahn, Horst-Günter email: rubahn@mci.sdu.dk organization: Mads Clausen Institute, NanoSYD, University of Southern Denmark, Alsion 2, 6400 Sønderborg, Denmark – sequence: 5 givenname: Yogendra surname: Kumar Mishra fullname: Kumar Mishra, Yogendra email: mishra@mci.sdu.dk organization: Mads Clausen Institute, NanoSYD, University of Southern Denmark, Alsion 2, 6400 Sønderborg, Denmark – sequence: 6 givenname: Hoe Joon surname: Kim fullname: Kim, Hoe Joon email: joonkim@dgist.ac.kr organization: Department of Robotics Engineering, Daegu Gyeongbuk Institute of Science and Technology, Daegu 42988, South Korea |
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Keywords | Laboratory waste Recycling Energy harvesting Triboelectric 3D printing |
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