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Giant and bidirectionally tunable thermopower in nonaqueous ionogels enabled by selective ion doping.

Sijing LiuYuewang YangHe HuangJiongzhi ZhengGongze LiuTsz Ho ToBaoling Huang
Published in: Science advances (2022)
Ionic thermoelectrics show great potential in thermal sensing owing to their ultrahigh thermopower, low cost, and ease in production. However, the lack of effective n-type ionic thermoelectric materials seriously hinders their applications. Here, we report giant and bidirectionally tunable thermopowers within an ultrawide range from −15 to +17 mV K −1 in solid ionic liquid–based ionogels. Particularly, a record high negative thermopower of −15 mV K −1 is achieved in the ternary ionogel, rendering it among the best n-type ionic thermoelectric materials under the same condition. A thermopower regulation strategy through ion doping to selectively induce ion aggregates to enhance ion-ion interactions is proposed. These selective ion interactions are found to be decisive in modulating the sign and magnitude of the thermopower in the ionogels. A prototype wearable device integrated with 12 p-n pairs is demonstrated with a total thermopower of 0.358 V K −1 , showing promise for ultrasensitive thermal detection.
Keyphrases
  • ionic liquid
  • low cost
  • room temperature
  • signaling pathway
  • blood pressure
  • heart rate
  • solid state
  • real time pcr
  • sensitive detection
  • solid phase extraction