T. Sahin Et Al. , "Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties," THIN SOLID FILMS , vol.709, 2020
Sahin, T. Et Al. 2020. Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties. THIN SOLID FILMS , vol.709 .
Sahin, T., Tekgul, A., KÖÇKAR, H., & ALPER, M., (2020). Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties. THIN SOLID FILMS , vol.709.
Sahin, Turgut Et Al. "Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties," THIN SOLID FILMS , vol.709, 2020
Sahin, Turgut Et Al. "Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties." THIN SOLID FILMS , vol.709, 2020
Sahin, T. Et Al. (2020) . "Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties." THIN SOLID FILMS , vol.709.
@article{article, author={Turgut Sahin Et Al. }, title={Effect of L-ascorbic acid on electrochemically deposited FeCoCu/Cu magnetic multilayer granular films: structural, magnetic and magnetoresistance properties}, journal={THIN SOLID FILMS}, year=2020}