4 research outputs found
A Moment
To just breathehttps://scholarsmine.mst.edu/libcom_stuart_fall2018/1025/thumbnail.jp
Warsong
Trying out watercolors with my mom (her awesome work isn\u27t here right now). Inspiration was taken from Cecile Agnes\u27s work in watercolors. This is for you mom :) I love you. \u3c3https://scholarsmine.mst.edu/libcom_stuart_fall2018/1016/thumbnail.jp
The people I love
I love you guys, Hannah and Stephen. You are my best friends, Particularly you Hannah! \u3c3https://scholarsmine.mst.edu/libcom_stuart_fall2018/1023/thumbnail.jp
Demonstration Of Miniaturized LIG Electrodes For Temperature And ECG Sensing Using A Femtosecond Laser
In this study, an advanced laser-scribing approach was optimized for fabricating miniaturized, high-density multisensors on polyimide substrates. The femtosecond 515 nm laser, with an approximately 10 µm spot size, produced significantly smaller conductive traces compared to conventional methods. A flexible integration board processed and wirelessly transmitted physiological signals to an Android device. Laser-induced graphene (LIG) electrodes and the board were integrated, detecting electrocardiogram (ECG) and temperature on human skin. The laser-scribing technique improved wearable sensor performance, enabling real-time, on-the-go health monitoring possibilities