Wafer-scale, three-dimensional helical porous thin films deposited at a glancing angle
Minimization of helices opens a door to impose novel functions derived from the
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
Wafer-scale, three-dimensional helical porous thin films deposited at a glancing angle.
Z Huang, F Bai - Nanoscale, 2014 - europepmc.org
Minimization of helices opens a door to impose novel functions derived from the
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
Wafer-scale, three-dimensional helical porous thin films deposited at a glancing angle
Z Huang, F Bai - Nanoscale, 2014 - ui.adsabs.harvard.edu
Minimization of helices opens a door to impose novel functions derived from the
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
Wafer-scale, three-dimensional helical porous thin films deposited at a glancing angle
Z Huang, F Bai - Nanoscale, 2014 - pubmed.ncbi.nlm.nih.gov
Minimization of helices opens a door to impose novel functions derived from the
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
[PDF][PDF] Wafer-scale, three-dimensional helical porous thin films deposited at a glancing angle
Z Huang, F Baia - researchgate.net
Minimization of helices opens a door to impose novel functions derived from the
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …
dimensional shrinkage of optical, mechanical and electronic devices. Glancing angle …