Atıf Formatları
A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

Y. AKSU Et Al. , "A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices," CHEMISTRY OF MATERIALS , vol.23, no.7, pp.1798-1804, 2011

AKSU, Y. Et Al. 2011. A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices. CHEMISTRY OF MATERIALS , vol.23, no.7 , 1798-1804.

AKSU, Y., Frasca, S., Wollenberger, U., Driess, M., & Thomas, A., (2011). A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices. CHEMISTRY OF MATERIALS , vol.23, no.7, 1798-1804.

AKSU, YILMAZ Et Al. "A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices," CHEMISTRY OF MATERIALS , vol.23, no.7, 1798-1804, 2011

AKSU, YILMAZ Et Al. "A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices." CHEMISTRY OF MATERIALS , vol.23, no.7, pp.1798-1804, 2011

AKSU, Y. Et Al. (2011) . "A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices." CHEMISTRY OF MATERIALS , vol.23, no.7, pp.1798-1804.

@article{article, author={YILMAZ AKSU Et Al. }, title={A Molecular Precursor Approach to Tunable Porous Tin-Rich Indium Tin Oxide with Durable High Electrical Conductivity for Bioelectronic Devices}, journal={CHEMISTRY OF MATERIALS}, year=2011, pages={1798-1804} }