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Janus CoMOF‐SEBS Membrane for Bifunctional Dielectric Layer in Triboelectric Nanogenerators
Considerable research has been conducted on the application of functional nano‐fillers to enhance the power generation capabilities of triboelectric nanogenerators (TENGs). However, these additives often exhibit a decrease in output power at higher concentration. Here, a Janus cobalt metal–organic framework‐SEBS (JCMS) membrane is reported as a dual‐purpose dielectric layer capable of efficiently capturing and blocking charges for high‐performance TENGs. The JCMS is produced asymmetrically through gravitational sedimentation, employing spherical CoMOFs within a diluted SEBS solution. Beyond its dual dielectric characteristics, the JCMS showcases exceptional mechanical durability, displaying notable stretchability of up to 475% and remarkable resilience when subjected to diverse mechanical pressures. Consequently, the JCMS‐TENG produces a maximum peak‐to‐peak voltage of 936 V, a current of 42.8 µA, and a power density of 10.89 W m−2 when exposed to an external force of 10 N at a 5 Hz frequency. This investigation highlights the potential of JCMS‐TENGs with unique structures, known for their exceptional energy harvesting capabilities, mechanical strength, and flexibility. Additionally, the promising prospects of easily produced asymmetric structures is emphasized with bifunctionalities for developing efficient and flexible MOFs‐based TENGs. These advancements are well‐suited for self‐powered wearables, rehabilitation devices, and energy harvesters.
Janus CoMOF‐SEBS Membrane for Bifunctional Dielectric Layer in Triboelectric Nanogenerators
Considerable research has been conducted on the application of functional nano‐fillers to enhance the power generation capabilities of triboelectric nanogenerators (TENGs). However, these additives often exhibit a decrease in output power at higher concentration. Here, a Janus cobalt metal–organic framework‐SEBS (JCMS) membrane is reported as a dual‐purpose dielectric layer capable of efficiently capturing and blocking charges for high‐performance TENGs. The JCMS is produced asymmetrically through gravitational sedimentation, employing spherical CoMOFs within a diluted SEBS solution. Beyond its dual dielectric characteristics, the JCMS showcases exceptional mechanical durability, displaying notable stretchability of up to 475% and remarkable resilience when subjected to diverse mechanical pressures. Consequently, the JCMS‐TENG produces a maximum peak‐to‐peak voltage of 936 V, a current of 42.8 µA, and a power density of 10.89 W m−2 when exposed to an external force of 10 N at a 5 Hz frequency. This investigation highlights the potential of JCMS‐TENGs with unique structures, known for their exceptional energy harvesting capabilities, mechanical strength, and flexibility. Additionally, the promising prospects of easily produced asymmetric structures is emphasized with bifunctionalities for developing efficient and flexible MOFs‐based TENGs. These advancements are well‐suited for self‐powered wearables, rehabilitation devices, and energy harvesters.
Janus CoMOF‐SEBS Membrane for Bifunctional Dielectric Layer in Triboelectric Nanogenerators
Yoo, Hyunjoon (Autor:in) / Mahato, Manmatha (Autor:in) / Kim, Ji‐Seok (Autor:in) / Oh, Saewoong (Autor:in) / Garai, Mousumi (Autor:in) / Nguyen, Van Hiep (Autor:in) / Taseer, Ashhad Kamal (Autor:in) / Lee, Myung‐Joon (Autor:in) / Oh, Il‐Kwon (Autor:in)
Advanced Science ; 11
01.04.2024
13 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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