Ozel, M. Et Al. 2020. Why Does Wood Not Get Contact Charged? Lignin as an Antistatic Additive for Common Polymers. CHEMISTRY OF MATERIALS , vol.32, no.17 , 7438-7444.

Ozel, M., Demir, F., Aikebaier, A., Kwiczak-Yigitbasi, J., Baytekin, H. T., & Baytekin, B., (2020). Why Does Wood Not Get Contact Charged? Lignin as an Antistatic Additive for Common Polymers. CHEMISTRY OF MATERIALS , vol.32, no.17, 7438-7444.

Ozel, Mertcan Et Al. "Why Does Wood Not Get Contact Charged? Lignin as an Antistatic Additive for Common Polymers," CHEMISTRY OF MATERIALS , vol.32, no.17, 7438-7444, 2020

Ozel, Mertcan Et Al. "Why Does Wood Not Get Contact Charged? Lignin as an Antistatic Additive for Common Polymers." CHEMISTRY OF MATERIALS , vol.32, no.17, pp.7438-7444, 2020

Ozel, M. Et Al. (2020) . "Why Does Wood Not Get Contact Charged? Lignin as an Antistatic Additive for Common Polymers." CHEMISTRY OF MATERIALS , vol.32, no.17, pp.7438-7444.

@article{article, author={Mertcan Ozel Et Al. }, title={Why Does Wood Not Get Contact Charged? Lignin as an Antistatic Additive for Common Polymers}, journal={CHEMISTRY OF MATERIALS}, year=2020, pages={7438-7444} }