N. ILDIZ Et Al. , "Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications," ENZYME AND MICROBIAL TECHNOLOGY , vol.102, pp.60-66, 2017
ILDIZ, N. Et Al. 2017. Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications. ENZYME AND MICROBIAL TECHNOLOGY , vol.102 , 60-66.
ILDIZ, N., Baldemir, A., Altınkaynak, C., ÖZDEMİR, N., YILMAZ, V., & ÖÇSOY, I., (2017). Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications. ENZYME AND MICROBIAL TECHNOLOGY , vol.102, 60-66.
ILDIZ, NİLAY Et Al. "Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications," ENZYME AND MICROBIAL TECHNOLOGY , vol.102, 60-66, 2017
ILDIZ, NİLAY Et Al. "Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications." ENZYME AND MICROBIAL TECHNOLOGY , vol.102, pp.60-66, 2017
ILDIZ, N. Et Al. (2017) . "Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications." ENZYME AND MICROBIAL TECHNOLOGY , vol.102, pp.60-66.
@article{article, author={NİLAY ILDIZ Et Al. }, title={Self assembled snowball-like hybrid nanostructures comprising Viburnum opulus L. extract and metal ions for antimicrobial and catalytic applications}, journal={ENZYME AND MICROBIAL TECHNOLOGY}, year=2017, pages={60-66} }