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Biomechanical Energy: Biomechanical Energy‐Driven Hybridized Generator as a Universal Portable Power Source for Smart/Wearable Electronics (Adv. Energy Mater. 12/2020)
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2020-03-26 , DOI: 10.1002/aenm.202070056 Muhammad Toyabur Rahman 1 , SM Sohel Rana 1 , Md Salauddin 1 , Pukar Maharjan 1 , Trilochan Bhatta 1 , Jae Yeong Park 1
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2020-03-26 , DOI: 10.1002/aenm.202070056 Muhammad Toyabur Rahman 1 , SM Sohel Rana 1 , Md Salauddin 1 , Pukar Maharjan 1 , Trilochan Bhatta 1 , Jae Yeong Park 1
Affiliation
In article number 1903663, Jae Yeong Park and co‐workers demonstrate an elastic‐impact‐based nonresonant hybridized generator (EINR‐HG) for biomechanical energy harvesting at low frequency vibrations. Introducing a soft‐magnetic material‐based flux‐concentrator and nanowire/nanofiber‐based triboelectric materials significantly improves the output performance of the EINR‐HG. The EINR‐HG serves as a universal portable power source for state‐of‐art smart/wearable electronics under diverse human‐induced vibrations at different carrying positions, such as in a backpack.
中文翻译:
生物力学能量:生物力学能量驱动的混合发电机作为智能/可穿戴电子设备的通用便携式电源(Adv。Energy Mater。12/2020)
Jae Yeong Park及其同事在第1903663号文章中演示了一种基于弹性碰撞的非共振混合发电机(EINR-HG),用于低频振动下的生物力学能量收集。引入基于软磁材料的通量集中器和基于纳米线/纳米纤维的摩擦电材料,可显着提高EINR-HG的输出性能。EINR-HG可以作为先进的智能/可穿戴电子设备的通用便携式电源,可在不同的携带位置(例如背包)中在各种人为引起的振动下产生。
更新日期:2020-03-27
中文翻译:
生物力学能量:生物力学能量驱动的混合发电机作为智能/可穿戴电子设备的通用便携式电源(Adv。Energy Mater。12/2020)
Jae Yeong Park及其同事在第1903663号文章中演示了一种基于弹性碰撞的非共振混合发电机(EINR-HG),用于低频振动下的生物力学能量收集。引入基于软磁材料的通量集中器和基于纳米线/纳米纤维的摩擦电材料,可显着提高EINR-HG的输出性能。EINR-HG可以作为先进的智能/可穿戴电子设备的通用便携式电源,可在不同的携带位置(例如背包)中在各种人为引起的振动下产生。