Search Results - "Behera, Makhes K."

Lead-free relaxor-ferroelectric thin films for energy harvesting from low-grade waste-heat by Sharma, Amrit P., Behera, Makhes K., Pradhan, Dhiren K., Pradhan, Sangram K., Bonner, Carl E., Bahoura, Messaoud

“…One of the ways to mitigate the world energy crisis is to harvest clean and green energy from waste-heat, which is abundant, ubiquitous, and free. Energy…”
Get full text

Gallium doped zinc oxide thin films as transparent conducting oxide for thin-film heaters by Beckford, Jasmine, Behera, Makhes K., Yarbrough, Kelsea, Obasogie, Brandon, Pradhan, Sangram K., Bahoura, Messaoud

“…The addition of suitable metallic dopants into the indium or zinc oxide matrix is essential to obtain transparent conducting oxide (TCO) thin films for…”
Get full text

Observation of MOSFET-like behavior of a TFT based on amorphous oxide semiconductor channel layer with suitable integration of atomic layered deposited high-k gate dielectrics by Yarbrough, Kelsea A., Behera, Makhes K., Beckford, Jasmine, Pradhan, Sangram K., Bahoura, Messaoud

“…A series of different high κ dielectrics such as HfO2, ZrO2, and Al2O3 thin films were studied as an alternative material for the possible replacement of…”
Get full text

Influence of oxygen on the optical, electrical, and heating properties of gallium-doped zinc oxide (GZO) films by Beckford, Jasmine, Behera, Makhes K., Yarbrough, Kelsea, Pradhan, Sangram K., Bahoura, Messaoud

“…Thin-film transparent heaters (TFTHs) are gaining popularity in optoelectronics and a variety of domestic applications, including smart windows, car…”
Get full text

Fabrication and characterization of SnO2 nanorods for room temperature gas sensors by Sharma, Amrit P., Dhakal, Pashupati, Pradhan, Dhiren K., Behera, Makhes K., Xiao, Bo, Bahoura, Messaoud

“…Highly sensitive large-scale tin oxide (SnO2) nanostructures were grown on a glass substrate by thermal evaporation of a mixture of anhydrous tin (II) chloride…”
Get full text

Potential low powered smart window coating using a stoichiometrically downgraded vanadium oxide thin film structure by Behera, Makhes K., Williams, Leslie C., Pradhan, Sangram K., Bahoura, Messaoud

“…With a metal to insulator transition (MIT) temperature of ∼68 °C to 70 °C, which is close to room temperature (RT), vanadium oxide (VO2) has piqued interest in…”
Get full text

Study of dielectric properties in stacked high-k dielectric metal oxide semiconductor capacitor (MOSCAP) devices by Behera, Makhes K., Yarbrough, Kelsea A., Bahoura, Messaoud

“…With the current technology having reached the physical limits of size downscaling, efforts need to be made toward the development of new dielectric materials…”
Get full text

Reduced Transition Temperature in Al:ZnO/VO2 Based Multi-Layered Device for low Powered Smart Window Application by Behera, Makhes K., Williams, Leslie C., Pradhan, Sangram K., Bahoura, Messaoud

“…The metal-to-insulator transition (MIT) closest to room temperature of 68–70 °C as shown by vanadium oxide (VO 2 ), compared with other transition metal…”
Get full text

Reduced Transition Temperature in Al:ZnO/VO 2 Based Multi-Layered Device for low Powered Smart Window Application by Behera, Makhes K, Williams, Leslie C, Pradhan, Sangram K, Bahoura, Messaoud

“…The metal-to-insulator transition (MIT) closest to room temperature of 68-70 °C as shown by vanadium oxide (VO ), compared with other transition metal oxides,…”
Get full text