Optical properties of sodium niobate thin films

Abstract: NaNbO 3 thin films were deposited under different conditions by rf magnetron sputtering of ceramic target. Spectral transmission of the deposited films was measured in the UV-Visible-near IR range. Films deposited at 300• C showed more absorption, and films annealed at 300• C showed less absorption than those deposited at room temperature (RT), which was found to be consistent with their X-ray diffraction (XRD) patterns. From the observed transmission spectra, refractive index, optical band gap, absorption coe… Show more

“…This is key to optimize the binding of the enzyme and to retain its activity. TiN is chosen as a support material thanks to its remarkable stability [47] in the electrochemical environment and high electrical conductivity [48–53] . Additionally, enzyme coupling is favored on TiN thanks to the transfer of s‐valency and d‐valency electrons of the Ti atoms to the 2p‐states of N atoms, [52] therefore it is a promising material for enzyme immobilization.…”

Hierarchical TiN‐Supported TsFDH Nanobiocatalyst for CO₂ Reduction to Formate

“…This is key to optimize the binding of the enzyme and to retain its activity. TiN is chosen as a support material thanks to its remarkable stability [47] in the electrochemical environment and high electrical conductivity [48–53] . Additionally, enzyme coupling is favored on TiN thanks to the transfer of s‐valency and d‐valency electrons of the Ti atoms to the 2p‐states of N atoms, [52] therefore it is a promising material for enzyme immobilization.…”

Hierarchical TiN‐Supported TsFDH Nanobiocatalyst for CO₂ Reduction to Formate

Refractive index of different perovskite materials

Energy Gap-Refractive Index Relations in Perovskites