Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang… - Nature …, 2023 - search.proquest.com
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang… - NATURE …, 2023 - scholarworks.bwise.kr
Efficient mechanical energy harvesting approaches are needed. Here, Zhang et al. develop
a plied carbon nanotube yarn that harvests mechanical energy upon stretching and lateral …
a plied carbon nanotube yarn that harvests mechanical energy upon stretching and lateral …
Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang… - Nature …, 2023 - econpapers.repec.org
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang, H Lu… - Nature …, 2023 - ideas.repec.org
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
[PDF][PDF] Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang, H Lu… - Nature, 2023 - researchgate.net
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang… - Nature …, 2023 - ui.adsabs.harvard.edu
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
[PDF][PDF] Mechanical energy harvesters with tensile efficiency of 17.4% and torsional efficiency of 22.4% based on homochirally plied carbon nanotube yarns
M Zhang, W Cai, Z Wang, S Fang, R Zhang, H Lu… - Nature, 2023 - researchgate.net
Improved methods are needed for harvesting mechanical energy. Coiled carbon nanotube
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …
yarns, termed twistrons, use stretch-induced changes in electrochemical capacitance to …