Zhang, J.; Yan, Z.; Kang, A.; Ouyang, J.; Ma, L.; Wang, X.; Wu, J.; Suo, D.; Funahashi, S.; Meng, W.;
et al. Amplitude of Intracranial Induced Electric Fields Does Not Linearly Decrease with Age: A Computational Study of Anatomical Effects in Adults. Biosensors 2025, 15, 185.
https://doi.org/10.3390/bios15030185
AMA Style
Zhang J, Yan Z, Kang A, Ouyang J, Ma L, Wang X, Wu J, Suo D, Funahashi S, Meng W,
et al. Amplitude of Intracranial Induced Electric Fields Does Not Linearly Decrease with Age: A Computational Study of Anatomical Effects in Adults. Biosensors. 2025; 15(3):185.
https://doi.org/10.3390/bios15030185
Chicago/Turabian Style
Zhang, Jianxu, Zilong Yan, Anshun Kang, Jian Ouyang, Lihua Ma, Xinyue Wang, Jinglong Wu, Dingjie Suo, Shintaro Funahashi, Wei Meng,
and et al. 2025. "Amplitude of Intracranial Induced Electric Fields Does Not Linearly Decrease with Age: A Computational Study of Anatomical Effects in Adults" Biosensors 15, no. 3: 185.
https://doi.org/10.3390/bios15030185
APA Style
Zhang, J., Yan, Z., Kang, A., Ouyang, J., Ma, L., Wang, X., Wu, J., Suo, D., Funahashi, S., Meng, W., Wang, L., & Zhang, J.
(2025). Amplitude of Intracranial Induced Electric Fields Does Not Linearly Decrease with Age: A Computational Study of Anatomical Effects in Adults. Biosensors, 15(3), 185.
https://doi.org/10.3390/bios15030185
