APA

Kasputis T., Pieper A., Rodenhausen K. B., Schmidt D., Sekora D., Rice C., Schubert E., Schubert M. & Pannier A. K. (20160111). Use of precisely sculptured thin film (STF) substrates with generalized ellipsometry to determine spatial distribution of adsorbed fibronectin to nanostructured columnar topographies and effect on cell adhesion. : Acta biomaterialia.

Chicago

Kasputis Tadas, Pieper Alex, Rodenhausen Keith Brian, Schmidt Daniel, Sekora Derek, Rice Charles, Schubert Eva, Schubert Mathias and Pannier Angela K. 20160111. Use of precisely sculptured thin film (STF) substrates with generalized ellipsometry to determine spatial distribution of adsorbed fibronectin to nanostructured columnar topographies and effect on cell adhesion. : Acta biomaterialia.

Harvard

Kasputis T., Pieper A., Rodenhausen K. B., Schmidt D., Sekora D., Rice C., Schubert E., Schubert M. and Pannier A. K. (20160111). Use of precisely sculptured thin film (STF) substrates with generalized ellipsometry to determine spatial distribution of adsorbed fibronectin to nanostructured columnar topographies and effect on cell adhesion. : Acta biomaterialia.

MLA

Kasputis Tadas, Pieper Alex, Rodenhausen Keith Brian, Schmidt Daniel, Sekora Derek, Rice Charles, Schubert Eva, Schubert Mathias and Pannier Angela K. Use of precisely sculptured thin film (STF) substrates with generalized ellipsometry to determine spatial distribution of adsorbed fibronectin to nanostructured columnar topographies and effect on cell adhesion. : Acta biomaterialia. 20160111.