Ajjaq, A. Et Al. 2023. ZnO seed-mediated hydrothermal growth of advanced 1-D ZnO and 2-D CuO nanostructured oxide ceramics for gas sensing applications. CERAMICS INTERNATIONAL , vol.49, no.24 , 40853-40865.

Ajjaq, A., Barin, Ö., ÇAĞIRTEKİN, A. O., Soltabayev, B., & ACAR, S., (2023). ZnO seed-mediated hydrothermal growth of advanced 1-D ZnO and 2-D CuO nanostructured oxide ceramics for gas sensing applications. CERAMICS INTERNATIONAL , vol.49, no.24, 40853-40865.

Ajjaq, Ahmad Et Al. "ZnO seed-mediated hydrothermal growth of advanced 1-D ZnO and 2-D CuO nanostructured oxide ceramics for gas sensing applications," CERAMICS INTERNATIONAL , vol.49, no.24, 40853-40865, 2023

Ajjaq, Ahmad Et Al. "ZnO seed-mediated hydrothermal growth of advanced 1-D ZnO and 2-D CuO nanostructured oxide ceramics for gas sensing applications." CERAMICS INTERNATIONAL , vol.49, no.24, pp.40853-40865, 2023

Ajjaq, A. Et Al. (2023) . "ZnO seed-mediated hydrothermal growth of advanced 1-D ZnO and 2-D CuO nanostructured oxide ceramics for gas sensing applications." CERAMICS INTERNATIONAL , vol.49, no.24, pp.40853-40865.

@article{article, author={Ahmad Ajjaq Et Al. }, title={ZnO seed-mediated hydrothermal growth of advanced 1-D ZnO and 2-D CuO nanostructured oxide ceramics for gas sensing applications}, journal={CERAMICS INTERNATIONAL}, year=2023, pages={40853-40865} }