TRV-2026-0062Version 5 · Revised
Reason for this version
Reading revised
Canonical text (the exact bytes fingerprinted)
TRUVACE RECORD VERSION record: TRV-2026-0062 version: 5 kind: revised reason: Reading revised timestamp: 2026-07-12T20:58:06.753922Z status: published lens: g_space sector: science headline: Multifunctional Flexible Humidity Sensor Systems Towards Noncontact Wearable Electronics dek: In the past decade, the global industry and research attentions on intelligent skin-like electronics have boosted their applications in diverse fields including human healthcare, Internet of Things, human-machine interfaces, artificial intelligence and soft robotics. Among them, flexible humidity sensors play a vital role in noncontact measurements relying on the unique property of rapid response to humidity change. This work presents an overview of recent advances in flexible humidity sensors using various acti… gain_reading: In the past decade, the global industry and research attentions on intelligent skin-like electronics have boosted their applications in diverse fields including human healthcare, Internet of Things, human-machine interfaces, artificial intelligence and soft robotics. problem_reading: (none) limitation: Historical evidence reading: the cited study may be limited by its design, population, period, or setting, and later research may report different effects. tag: Evidence-backed gain key_points: Among them, flexible humidity sensors play a vital role in noncontact measurements relying on the unique property of rapid response to humidity change. | This work presents an overview of recent advances in flexible humidity sensors using various active functional materials for contactless monitoring. | Four categories of humidity sensors are highlighted based on resistive, capacitive, impedance-type and voltage-type working mechanisms. rundown: In the past decade, the global industry and research attentions on intelligent skin-like electronics have boosted their applications in diverse fields including human healthcare, Internet of Things, human-machine interfaces, artificial intelligence and soft robotics. Among them, flexible humidity sensors play a vital role in noncontact measurements relying on the unique property of rapid response to humidity change. This work presents an overview of recent advances in flexible humidity sensors using various active functional materials for contactless monitoring. Four categories of humidity sensors are highlighted based on resistive, capacitive, impedance-type and voltage-type working mechanisms. sources: - peer_reviewed | Artificial Intelligence Review | https://doi.org/10.1007/s10462-024-11063-z | 2025-01-08 - peer_reviewed | IET Wireless Sensor Systems | https://doi.org/10.1049/wss2.70016 | 2025-01-01 - peer_reviewed | Nano-Micro Letters | https://doi.org/10.1007/s40820-022-00895-5 | 2022-07-22 - peer_reviewed | SmartMat | https://doi.org/10.1002/smm2.70022 | 2025-06-01 prev: 08646450a9737b54b3a168c3b7cc95636a0f428f7aa02475f8f71d42eaddb73b
- sha256
- 1e88bc6bf46a9d4ca333207a16c398dc94dcefc78faf1558f6d7c1095e4c2cd4
- previous
- 08646450a9737b54b3a168c3b7cc95636a0f428f7aa02475f8f71d42eaddb73b
Verify this record
How to verify without trusting this page
Fetch the canonical text of any version from /api/record/TRV-2026-0062 and hash it yourself — for example shasum -a 256 on the saved canonical field. The result must equal content_hash, and each version’s text ends with prev:followed by the prior version’s hash (version 1 chains to 64 zeros). If a single character of any version had been altered since certification, the chain would not reproduce.