REFERENCES

1. Sundaram, S.; Kellnhofer, P.; Li, Y.; Zhu, J. Y.; Torralba, A.; Matusik, W. Learning the signatures of the human grasp using a scalable tactile glove. Nature 2019, 569, 698-702.

2. Libanori, A.; Chen, G.; Zhao, X.; Zhou, Y.; Chen, J. Smart textiles for personalized healthcare. Nat. Electron. 2022, 5, 142-56.

3. Zhao, X.; Zhou, Y.; Xu, J.; et al. Soft fibers with magnetoelasticity for wearable electronics. Nat. Commun. 2021, 12, 6755.

4. Li, P.; Yang, M.; Liu, Y.; et al. The rise of intelligent fabric agent from mass-produced advanced fiber materials. Sci. Bull. 2024, 69, 3644-7.

5. Fan, W.; He, Q.; Meng, K.; et al. Machine-knitted washable sensor array textile for precise epidermal physiological signal monitoring. Sci. Adv. 2020, 6, eaay2840.

6. Luo, Y.; Li, Y.; Sharma, P.; et al. Learning human–environment interactions using conformal tactile textiles. Nat. Electron. 2021, 4, 193-201.

7. Kim, J.; Campbell, A. S.; de, Á. B. E.; Wang, J. Wearable biosensors for healthcare monitoring. Nat. Biotechnol. 2019, 37, 389-406.

8. Ray, T. R.; Choi, J.; Bandodkar, A. J.; et al. Bio-integrated wearable systems: a comprehensive review. Chem. Rev. 2019, 119, 5461-533.

9. Luo, L.; Wu, Z.; Ding, Q.; et al. In situ structural densification of hydrogel network and its interface with electrodes for high-performance multimodal artificial skin. ACS. Nano. 2024, 18, 15754-68.

10. Wang, W.; Yao, D.; Wang, H.; et al. A breathable, stretchable, and self-calibrated multimodal electronic skin based on hydrogel microstructures for wireless wearables. Adv. Funct. Mater. 2024, 34, 2316339.

11. Khan, Y.; Ostfeld, A. E.; Lochner, C. M.; Pierre, A.; Arias, A. C. Monitoring of vital signs with flexible and wearable medical devices. Adv. Mater. 2016, 28, 4373-95.

12. Gao, Y.; Yu, L.; Yeo, J. C.; Lim, C. T. Flexible hybrid sensors for health monitoring: materials and mechanisms to render wearability. Adv. Mater. 2020, 32, e1902133.

13. Trung, T. Q.; Lee, N. E. Flexible and stretchable physical sensor integrated platforms for wearable human-activity monitoringand personal healthcare. Adv. Mater. 2016, 28, 4338-72.

14. Beco, J.; Seidel, L.; Albert, A. Normative values of skin temperature and thermal sensory thresholds in the pudendal nerve territory. Neurourol. Urodyn. 2015, 34, 571-7.

15. Ebi, K. L.; Capon, A.; Berry, P.; et al. Hot weather and heat extremes: health risks. Lancet 2021, 398, 698-708.

16. Cheshire, W. P. J. Thermoregulatory disorders and illness related to heat and cold stress. Auton. Neurosci. 2016, 196, 91-104.

17. Liu, H.; Du, C.; Liao, L.; et al. Approaching intrinsic dynamics of MXenes hybrid hydrogel for 3D printed multimodal intelligent devices with ultrahigh superelasticity and temperature sensitivity. Nat. Commun. 2022, 13, 3420.

18. Trung, T. Q.; Ramasundaram, S.; Hwang, B. U.; Lee, N. E. An all-elastomeric transparent and stretchable temperature sensor for body-attachable wearable electronics. Adv. Mater. 2016, 28, 502-9.

19. Ren, X.; Pei, K.; Peng, B.; et al. A low-operating-power and flexible active-matrix organic-transistor temperature-sensor array. Adv. Mater. 2016, 28, 4832-8.

20. Bayindir, M.; Abouraddy, A.; Arnold, J.; Joannopoulos, J.; Fink, Y. Thermal-sensing fiber devices by multimaterial codrawing. Adv. Mater. 2006, 18, 845-9.

21. Yu, L.; Parker, S.; Xuan, H.; et al. Flexible multi-material fibers for distributed pressure and temperature sensing. Adv. Funct. Mater. 2020, 30, 1908915.

22. Su, Y.; Ma, C.; Chen, J.; et al. Printable, highly sensitive flexible temperature sensors for human body temperature monitoring: a review. Nanoscale. Res. Lett. 2020, 15, 200.

23. Li, Q.; Zhang, L. N.; Tao, X. M.; Ding, X. Review of flexible temperature sensing networks for wearable physiological monitoring. Adv. Healthc. Mater. 2017, 6, 1601371.

24. Wu, R.; Ma, L.; Hou, C.; et al. Silk composite electronic textile sensor for high space precision 2D combo temperature-pressure sensing. Small 2019, 15, e1901558.

25. Trung, T. Q.; Le, H. S.; Dang, T. M. L.; Ju, S.; Park, S. Y.; Lee, N. E. Freestanding, fiber-based, wearable temperature sensor with tunable thermal index for healthcare monitoring. Adv. Healthc. Mater. 2018, 7, e1800074.

26. Hu, X.; Tian, M.; Xu, T.; et al. Multiscale disordered porous fibers for self-sensing and self-cooling integrated smart sportswear. ACS. Nano. 2020, 14, 559-67.

27. He, H.; Liu, J.; Wang, Y.; et al. An ultralight self-powered fire alarm e-textile based on conductive aerogel fiber with repeatable temperature monitoring performance used in firefighting clothing. ACS. Nano. 2022, 16, 2953-67.

28. He, Y.; Gui, Q.; Liao, S.; Jia, H.; Wang, Y. Coiled fiber-shaped stretchable thermal sensors for wearable electronics. Adv. Mater. Technol. 2016, 1, 1600170.

29. Wang, J.; He, J.; Ma, L.; et al. Multifunctional conductive cellulose fabric with flexibility, superamphiphobicity and flame-retardancy for all-weather wearable smart electronic textiles and high-temperature warning device. Chem. Eng. J. 2020, 390, 124508.

30. Wang, Y.; Liu, J.; Zhao, Y.; et al. Temperature-triggered fire warning PEG@wood powder/carbon nanotube/calcium alginate composite aerogel and the application for firefighting clothing. Compos. Part. B. Eng. 2022, 247, 110348.

31. Wang, F.; Chen, J.; Cui, X.; Liu, X.; Chang, X.; Zhu, Y. Wearable ionogel-based fibers for strain sensors with ultrawide linear response and temperature sensors insensitive to strain. ACS. Appl. Mater. Interfaces. 2022, 14, 30268-78.

32. Zhang, Y.; Hu, Z.; Xiang, H.; Zhai, G.; Zhu, M. Fabrication of visual textile temperature indicators based on reversible thermochromic fibers. Dyes. Pigm. 2019, 162, 705-11.

33. Li, F.; Xue, H.; Lin, X.; Zhao, H.; Zhang, T. Wearable temperature sensor with high resolution for skin temperature monitoring. ACS. Appl. Mater. Interfaces. 2022, 14, 43844-52.

34. Lee, J.; Kim, D. W.; Chun, S.; et al. Intrinsically strain-insensitive, hyperelastic temperature-sensing fiber with compressed micro-wrinkles for integrated textronics. Adv. Mater. Technol. 2020, 5, 2000073.

35. Gui, Q.; He, Y.; Gao, N.; Tao, X.; Wang, Y. A skin-inspired integrated sensor for synchronous monitoring of multiparameter signals. Adv. Funct. Mater. 2017, 27, 1702050.

36. Zhang, H.; Zhang, S.; Zhang, X. Experimental discovery of magnetoresistance and its memory effect in methylimidazolium-type iron-containing ionic liquids. Chem. Mater. 2016, 28, 8710-4.

37. Sangoro, J. R.; Serghei, A.; Naumov, S.; et al. Charge transport and mass transport in imidazolium-based ionic liquids. Phys. Rev. E. 2008, 77, 051202.

38. Ge, G.; Lu, Y.; Qu, X.; et al. Muscle-inspired self-healing hydrogels for strain and temperature sensor. ACS. Nano. 2020, 14, 218-28.

39. Wang, Y.; Ai, X.; Lu, S.; Xing, T.; Qi, N.; Chen, G. Fabrication of a type of silk/PEDOT conductive fibers for wearable sensor. Colloid. Surface. A. 2021, 625, 126909.