2016
DOI: 10.1002/ange.201606314
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Wearable Thermocells Based on Gel Electrolytes for the Utilization of Body Heat

Abstract: Converting body heat into electricity is a promising strategy for supplying power to wearable electronics. To avoid the limitations of traditional solid-state thermoelectric materials, such as frangibility and complex fabrication processes, we fabricated two types of thermogalvanic gel electrolytes with positive and negative thermo-electrochemical Seebeck coefficients, respectively, which correspond to the n-type and p-type elements of a conventional thermoelectric generator. Such gel electrolytes exhibit not … Show more

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Cited by 59 publications
(67 citation statements)
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References 48 publications
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“…[1][2][3][4][5][6] Thed iversity of demand has inspired sensor devices based on many different mechanisms,i ncluding resistance sensors, [7][8][9] capacitive sensors, [10] piezoelectric sensors, [11][12][13] thermoelectric sensors, [14] and field-effect transistor (FET) devices. Owing to the reverse electrowetting phenomenon [21][22][23] of the droplet on the solid surface and the thermogalvanic effect [24][25][26] of the solution, the deformation of the droplet shape and the temperature difference across the droplet can induce an alternating pulse voltage and ad irect voltage,r espectively,w hich can be utilized to sense the external force and temperature.T he interference effect of temperature and force on the integrated voltage signal is also analyzed, so as to distinguish and derive the temperature and force stimuli separately.B ased on these properties,a n integrated sensing and lighting system is also demonstrated.These results may open an ew and cost-effective sensing approach for artificial intelligence systems. To realize the functionality,most of the designs integrate as eparate temperature and af orce senor by tiling or laminating,w hich in fact detect multiple stimuli by different sensors individually.…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…[1][2][3][4][5][6] Thed iversity of demand has inspired sensor devices based on many different mechanisms,i ncluding resistance sensors, [7][8][9] capacitive sensors, [10] piezoelectric sensors, [11][12][13] thermoelectric sensors, [14] and field-effect transistor (FET) devices. Owing to the reverse electrowetting phenomenon [21][22][23] of the droplet on the solid surface and the thermogalvanic effect [24][25][26] of the solution, the deformation of the droplet shape and the temperature difference across the droplet can induce an alternating pulse voltage and ad irect voltage,r espectively,w hich can be utilized to sense the external force and temperature.T he interference effect of temperature and force on the integrated voltage signal is also analyzed, so as to distinguish and derive the temperature and force stimuli separately.B ased on these properties,a n integrated sensing and lighting system is also demonstrated.These results may open an ew and cost-effective sensing approach for artificial intelligence systems. To realize the functionality,most of the designs integrate as eparate temperature and af orce senor by tiling or laminating,w hich in fact detect multiple stimuli by different sensors individually.…”
mentioning
confidence: 99%
“…Owing to the reverse electrowetting phenomenon [21][22][23] of the droplet on the solid surface and the thermogalvanic effect [24][25][26] of the solution, the deformation of the droplet shape and the temperature difference across the droplet can induce an alternating pulse voltage and ad irect voltage,r espectively,w hich can be utilized to sense the external force and temperature.T he interference effect of temperature and force on the integrated voltage signal is also analyzed, so as to distinguish and derive the temperature and force stimuli separately.B ased on these properties,a n integrated sensing and lighting system is also demonstrated. Owing to the reverse electrowetting phenomenon [21][22][23] of the droplet on the solid surface and the thermogalvanic effect [24][25][26] of the solution, the deformation of the droplet shape and the temperature difference across the droplet can induce an alternating pulse voltage and ad irect voltage,r espectively,w hich can be utilized to sense the external force and temperature.T he interference effect of temperature and force on the integrated voltage signal is also analyzed, so as to distinguish and derive the temperature and force stimuli separately.B ased on these properties,a n integrated sensing and lighting system is also demonstrated.…”
mentioning
confidence: 99%
“…1 As a promising approach, thermoelectric generators (TEGs) can directly harvest human body heat and convert it into electricity for the power supply of wearable electronics. 2,3 For wearable TEG, polydimethylsiloxane (PDMS), which features high flexibility and biocompatibility, has been Nomenclature: W leg , width of thermoelectric leg (mm); H leg , height of thermoelectric leg (mm); L 1 , width of PDMS between adjacent thermoelectric pairs (mm); L 2 , width of PDMS in the thermoelectric pair (mm); T, temperature (K); V, voltage (V); k, thermal conductivity (W m −1 K −1 ); j, current density (A m −2 ); h, convection coefficient (W m −2 K −1 ); C P , specific heat (J kg −1 K −1 ); T Ã P , temperature of the CV achieved in previous iteration step (K); V Ã P , voltage of the CV achieved in previous iteration step (V); T 0 P , initial temperature of the CV of the iteration (K); V 0 P , initial voltage of the CV of the iteration (V); P, output power (W); _ Q, heat flow at the hot side (W); q, heat flux at the hot side (W m −2 ); A, bottom surface area of TEM (m −2 ); R, external loading resistance (Ω)…”
Section: Introductionmentioning
confidence: 99%
“…[20] However,b oth the devices may face problems of sophistication in fabrication or post signal processing, since they involve nanoscale fabrication or micro current/ voltage signals.H ence an ew sensing approach with high accuracy and simple architecture is still highly desirable.Herein we report am ultimodal temperature and force sensor using only al iquid droplet of K 3 [Fe(CN) 6 ]/K 4 [Fe-(CN) 6 ]s olution. Owing to the reverse electrowetting phenomenon [21][22][23] of the droplet on the solid surface and the thermogalvanic effect [24][25][26] of the solution, the deformation of the droplet shape and the temperature difference across the droplet can induce an alternating pulse voltage and ad irect voltage,r espectively,w hich can be utilized to sense the external force and temperature.T he interference effect of temperature and force on the integrated voltage signal is also analyzed, so as to distinguish and derive the temperature and force stimuli separately.B ased on these properties,a n integrated sensing and lighting system is also demonstrated.These results may open an ew and cost-effective sensing approach for artificial intelligence systems. Figure 1a schematically illustrates the structure of the droplet sensor,w hich consists of al iquid droplet and two conducting plates,placed at the bottom and top of the droplet.…”
mentioning
confidence: 99%
“…Herein we report am ultimodal temperature and force sensor using only al iquid droplet of K 3 [Fe(CN) 6 ]/K 4 [Fe-(CN) 6 ]s olution. Owing to the reverse electrowetting phenomenon [21][22][23] of the droplet on the solid surface and the thermogalvanic effect [24][25][26] of the solution, the deformation of the droplet shape and the temperature difference across the droplet can induce an alternating pulse voltage and ad irect voltage,r espectively,w hich can be utilized to sense the external force and temperature.T he interference effect of temperature and force on the integrated voltage signal is also analyzed, so as to distinguish and derive the temperature and force stimuli separately.B ased on these properties,a n integrated sensing and lighting system is also demonstrated.…”
mentioning
confidence: 99%