Add to ORKGThis project focuses on a novel solvothermal synthesis method of Antimony Telluride nanoplates in the pure and doped forms for thermoelectric applications. As compared with its bulk counterpart, Sb2Te3 has numerous added advantages, mainly attributed to its quantum confinement effect. The nanoplates were tested for electrical resistivity and Seebeck coefficient (ZT) to determine improvements in thermoelectric properties and possible device applications. Numerous elements have been test-doped into the Sb2Te3 nanocrystals however experiments were unsuccessful. The failure to further improve the thermoelectric properties of Sb2Te3 nanocrystals may be accounted for by improper synthesis techniques and/or wrong choice of doping element.Bachel...
Arrays of nanowires and nanotubes of antimony-telluride (Sb 2Te3) have been fabricated by an electro...
The paramount issues of today such as the gathering energy crisis and rise in levels of pollution ha...
Engineered atomic dislocations have been used to create a novel, Sb2Te3 nanoplate-like architecture ...
This project focuses on a novel solvothermal synthesis method of Antimony Telluride nanoplates in th...
Antimony telluride (Sb2 Te3 ) is an intermetallic compound crystallizing in a hexagonal lattice with...
Antimony telluride (Sb2Te3) and its based alloys are of importance to p-type semiconductors for ther...
Antimony telluride, (Sb2Te3), and its doped derivatives are considered to be among the best p-type t...
Metal Chalcogenide nanostructures have been extensively implemented for high-performance thermoelect...
Thermoelectric energy conversion is a unique alternative green-energy technology that can be used fo...
There is a strong interest in thermoelectric materials for energy production and savings. The proper...
Antimony telluride (Sb<sub>2</sub>Te<sub>3</sub>) and its based alloys are of importance to p-type s...
Antimony telluride has a low thermoelectric figure of merit (ZT < ∼0.3) because of a low Seebeck coe...
The field of thermoelectrics has displayed great potentiality as one of the viable technologies for ...
Thermoelectrics are an important class of materials with great potential in alternative energy appli...
Thesis advisor: Zhifeng RenSolid-state cooling and power generation based on thermoelectric effects ...
Arrays of nanowires and nanotubes of antimony-telluride (Sb 2Te3) have been fabricated by an electro...
The paramount issues of today such as the gathering energy crisis and rise in levels of pollution ha...
Engineered atomic dislocations have been used to create a novel, Sb2Te3 nanoplate-like architecture ...
This project focuses on a novel solvothermal synthesis method of Antimony Telluride nanoplates in th...
Antimony telluride (Sb2 Te3 ) is an intermetallic compound crystallizing in a hexagonal lattice with...
Antimony telluride (Sb2Te3) and its based alloys are of importance to p-type semiconductors for ther...
Antimony telluride, (Sb2Te3), and its doped derivatives are considered to be among the best p-type t...
Metal Chalcogenide nanostructures have been extensively implemented for high-performance thermoelect...
Thermoelectric energy conversion is a unique alternative green-energy technology that can be used fo...
There is a strong interest in thermoelectric materials for energy production and savings. The proper...
Antimony telluride (Sb<sub>2</sub>Te<sub>3</sub>) and its based alloys are of importance to p-type s...
Antimony telluride has a low thermoelectric figure of merit (ZT < ∼0.3) because of a low Seebeck coe...
The field of thermoelectrics has displayed great potentiality as one of the viable technologies for ...
Thermoelectrics are an important class of materials with great potential in alternative energy appli...
Thesis advisor: Zhifeng RenSolid-state cooling and power generation based on thermoelectric effects ...
Arrays of nanowires and nanotubes of antimony-telluride (Sb 2Te3) have been fabricated by an electro...
The paramount issues of today such as the gathering energy crisis and rise in levels of pollution ha...
Engineered atomic dislocations have been used to create a novel, Sb2Te3 nanoplate-like architecture ...