Ajjaq, A. Et Al. 2022. Gas Sensing Performance of Hydrothermally Produced ZnO Nanostructures Based on Dip-Coated Seed Layers with Different Dipping Cycles. Journal of Advanced Applied Sciences , vol.1, no.1 , 8-15.

Ajjaq, A., Çağırtekin, A. O., Barin, Ö., Karaduman Er, I., & Acar, S., (2022). Gas Sensing Performance of Hydrothermally Produced ZnO Nanostructures Based on Dip-Coated Seed Layers with Different Dipping Cycles. Journal of Advanced Applied Sciences , vol.1, no.1, 8-15.

Ajjaq, Ahmad Et Al. "Gas Sensing Performance of Hydrothermally Produced ZnO Nanostructures Based on Dip-Coated Seed Layers with Different Dipping Cycles," Journal of Advanced Applied Sciences , vol.1, no.1, 8-15, 2022

Ajjaq, Ahmad Et Al. "Gas Sensing Performance of Hydrothermally Produced ZnO Nanostructures Based on Dip-Coated Seed Layers with Different Dipping Cycles." Journal of Advanced Applied Sciences , vol.1, no.1, pp.8-15, 2022

Ajjaq, A. Et Al. (2022) . "Gas Sensing Performance of Hydrothermally Produced ZnO Nanostructures Based on Dip-Coated Seed Layers with Different Dipping Cycles." Journal of Advanced Applied Sciences , vol.1, no.1, pp.8-15.

@article{article, author={Ahmad Ajjaq Et Al. }, title={Gas Sensing Performance of Hydrothermally Produced ZnO Nanostructures Based on Dip-Coated Seed Layers with Different Dipping Cycles}, journal={Journal of Advanced Applied Sciences}, year=2022, pages={8-15} }