Transition metal oxide films: Technology and “Smart Windows” electrochromic device performance

“…Metallic and carbon based nanomaterials are particularly attractive in biosensor fabrication due to their high surface area and biocompatibility [2,3]. Among these materials, transition metal oxides are drawing particular attention since they provide low cost alternatives to noble metals due to their unique electrocatalytic [4,5], electrochromic [6] and super capacitive properties [7,8]. These oxide films can be prepared by various chemical and electrochemical techniques where the latter methodology requires deposition at a constant current or by simply cycling the potential subsequently in a range suitable for the deposit formation [9,10].…”

A novel ethanol biosensor on pulsed deposited MnOx-MoOx electrode decorated with Pt nanoparticles

“…Metallic and carbon based nanomaterials are particularly attractive in biosensor fabrication due to their high surface area and biocompatibility [2,3]. Among these materials, transition metal oxides are drawing particular attention since they provide low cost alternatives to noble metals due to their unique electrocatalytic [4,5], electrochromic [6] and super capacitive properties [7,8]. These oxide films can be prepared by various chemical and electrochemical techniques where the latter methodology requires deposition at a constant current or by simply cycling the potential subsequently in a range suitable for the deposit formation [9,10].…”

A novel ethanol biosensor on pulsed deposited MnOx-MoOx electrode decorated with Pt nanoparticles

“…[1][2][3][4][5][6][7][8][9][10][11][12] In particular, these oxides have found applications in areas as: catalysis, gas sensors, lithium micro-batteries, supercapacitors, smart windows among other devices. [13][14][15][16][17] Up to now α-MoO 3 has been the most studied material of the whole selection of molybdenum oxides. However, it is still necessary to characterize the electrical properties of most of the MoO x (2 x < 3) to enlarge and find new applications of these molybdenum oxides.…”

Laser Fluence Dependence of the Electrical Properties of MoO₂ Formed by High Repetition Femtosecond Laser Pulses

“…Electrochromic devices (ECDs) can undergo reversible color changes and changes in optical transmittance or reflectance under an applied voltage . These characteristics are used in a variety of emerging technologies such as smart windows, antiglare mirrors, thermally controlled satellites, electronic displays, and e‐paper . ECDs provide several advantages including high reflectance–contrast ratios, low switching voltages, the ability to produce many colors, memory effects, low eye strain, and low energy consumption .…”

“…1 These characteristics are used in a variety of emerging technologies such as smart windows, antiglare mirrors, thermally controlled satellites, electronic displays, and e-paper. [2][3][4][5][6][7][8] ECDs provide several advantages including high reflectance-contrast ratios, low switching voltages, the ability to produce many colors, memory effects, low eye strain, and low energy consumption. [9][10][11][12] Electrochromic (EC) materials are the active components of ECDs and are able to reversibly change their light absorption properties in a certain wavelength range via redox reactions.…”

High cycling stability and well printability poly(3,4‐ethylenedioxythiophene):poly(styrene sulfonate)/multi‐walled carbon nanotube nanocomposites via in situ polymerization applied on electrochromic display