针对传统刚性温度传感器在曲面贴合、形变耐受方面的局限性，本实验制备了一种适用于温度监测的柔
性传感器。该传感器以厚度为58 μm的PI/Cu膜为基材，通过紫外纳秒激光加工制备了线宽为400 μm、线间距为
400-1600 μm的梯度化类蜘蛛网导电网络。实验结果表明，该传感器在25-50℃范围内表现出良好的线性温度-电
阻特性（R2=0.99），且能耐受多次弯折和扭曲形变。有限元模拟进一步验证了设计的八边形结构的最大变形量较五
边形降低19.3%。该传感器兼具高贴合性与机械稳定性，能有效消除因贴合不紧密导致的温度检测误差，为汽车坐垫
温度监测提供更精确、稳定的温度数据反馈。

柔性温度传感器；类蜘蛛网结构；有限元模拟

[1]Li Q, Zhang L N, Tao X M, Ding X. Review

of Flexible Temperature Sensing Networks for Wearable

Physiological Monitoring [J]. Advanced healthcare materials,

2017, 6, 1601371.

[2]Luo Y F, Abidian M R, Ahn J H, Akinwande D,

Andrews A M, Antonietti M, Bao Z N, Berggren M, Breke

C A, Bettinger C J, et al. Technology Roadmap for Flexible

Sensors [J]. ACS Nano, 2023, 17, 5211-5295.

[3]Wang X W, Liu Z, Zhang T. Wearable Electronics:

Flexible Sensing Electronics for Wearable/Attachable Health

Monitoring [J]. Small, 2017, 1602790.

[4]Huynh T P, Haick H. Autonomous Flexible Sensors

for Health Monitoring [J]. Advanced Materials, 2018, 30,

1802337.

[5]Gao W, Ota H, Kiriya D, Takei K, Javey A. Flexible

Electronics toward Wearable Sensing [J]. Accounts of

Chemical Research, 2019, 52, 523-533.

[6]Liu R P, He L, Cao M J, Sun Z H, Zhu R Q, Li

Y. Flexible Temperature Sensors [J]. Frontiers in Chemistry,

2021, 9, 539678.

[7]Usman M, Jamhour N, Hettinger J, Wei X. Smart

wearable flexible temperature sensor with compensation

against bending and stretching effects [J]. Sensors and

Actuators A: Physical, 2023, 353, 114224.

[11]Su y, Ma C S, Chen J, Wu H P, Luo W X, Peng Y

M, Luo Z B, Li L, Tan Y S, Omisore M O, Zhu Z F, Wang

L, Li H. Printable, Highly Sensitive Flexible Temperature

Sensors for Human Body Temperature Monitoring: A

Review [J]. Nanoscale research letters, 2020, 15, 200.

[12]Jiang T, Zhao N. Design and fabrication of

strain-resistant flexible temperature sensors [J]. Electronic

Components and Materials, 2025, 44, 152-156. (in Chinese)

[姜涛，赵娜.抗应变柔性温度传感器的设计与制[J].电子

元件与材，2025，44，152-156.