2017
DOI: 10.1002/admt.201700182
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Integration of Energy Harvesting and Electrochemical Storage Devices

Abstract: and power the building in the night. [12] Such a smart combination not only provides multifunctions, but also saves materials and footprint in modern buildings. Another example is the wireless operation devices such as unmanned aerial vehicles and implantable biosensors, which are required to be placed in remote area or hazardous condition. They are required to be self-charged/powered by converting other energy forms from natural sources (such as heat, solar, and wind) or human movements (via piezoelectric and… Show more

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Cited by 90 publications
(61 citation statements)
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References 130 publications
(163 reference statements)
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“…For this purpose, various types of energy storage systems have been explored, including conventional lithium‐ion batteries, nickel‐metal hybrid batteries, and supercapacitors . In spite of recent attention to integrating the energy harvester with a storage system, most approaches still use wires to connect to external storage devices for simplicity . However, when the distance between two systems is long, the energy storage efficiency is decreased due to larger energy dissipation arising from the internal resistance of the wires .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…For this purpose, various types of energy storage systems have been explored, including conventional lithium‐ion batteries, nickel‐metal hybrid batteries, and supercapacitors . In spite of recent attention to integrating the energy harvester with a storage system, most approaches still use wires to connect to external storage devices for simplicity . However, when the distance between two systems is long, the energy storage efficiency is decreased due to larger energy dissipation arising from the internal resistance of the wires .…”
Section: Introductionmentioning
confidence: 99%
“…[12,13] In spite of recent attention to integrating the energy harvester with a storage system, most approaches still use wires to connect to external storage devices for simplicity. [14,15] However, when the distance between two systems is long, the energy storage efficiency is decreased due to larger energy dissipation arising from the internal resistance of the wires. [16,17] Also, the simple connection of two isolated systems requires more space for installation, which lowers the integration density within a specific area.…”
mentioning
confidence: 99%
“…Additionally, various energy storage devices have been developed, such as supercapacitors, secondary ion batteries, metal‐air batteries, metal‐sulfur batteries, redox flow batteries, and other chemical batteries (eg, nickel‐based and zinc‐based batteries). To date, to achieve the purpose of the integration of energy harvesting and storage systems, three connection modes have been proposed (Figure ) that these two systems can be connected via an external circuit or an integrated platform or integrated into one single unit/chip . In Mode I and II, the energy conversion and storage processes are separate and independent, different with Mode III in which the energy is converted and stored simultaneously without any intermediate processes.…”
Section: Power Supply Systems For the Ioementioning
confidence: 99%
“…Mode I: integration via extra connections; Mode II: integration via a platform; and Mode III: integration into one single unit. Reproduced with permission . Copyright 2017, Wiley‐VCH…”
Section: Power Supply Systems For the Ioementioning
confidence: 99%
“…The growing energy demand and the unmanageable carbon emission to the environment urge the development of advanced and high energy density storage devices for modern portable devices to electric vehicles and for renewable energy storage applications . Despite the various advantages of lithium ion batteries that fetch the market attention together with a key component in the emerging smart technology in the recent days, the still demanding high energy and power requirement of modern e‐applications necessitate further research on next generation batteries ,. Particularly, Li−S batteries satisfy most of such requirements owing to their advantages that include low cost, environmentally benign nature, high theoretical capacity (1675 mAh/g) and energy density (2600 Wh/kg), originated from the direct two electron transfer reaction taking place between sulfur and lithium .…”
Section: Introductionmentioning
confidence: 99%