Add to ORKGIntrinsically doped samples of YCuTe_2 were prepared by solid state reaction of the elements. Based on the differential scanning calorimetry and the high temperature X-ray diffraction analyses, YCuTe_2 exhibits a first order phase transition at ∼440 K from a low-temperature-phase crystallizing in the space group P^(bar)3 with combining P^(bar)3m1 to a high-temperature-phase in P^(bar)3 with combining macron]. Above the phase transition temperature, partially ordered Cu atoms become completely disordered in the crystal structure. Small increases to the Cu content are observed to favour the formation of the high temperature phase. We find no indication of superionic Cu ions as for binary copper chalcogenides (e.g., Cu_2Se or Cu_2Te). All inve...
Cu2Te is a superionic conductor that belongs to the Phonon Liquid Electron Crystal class of thermoel...
Binary Cu2Se and Cu2Te have gained great attention recently because of their interesting and abnorma...
14 pages. -- 1. Synthesize and characterization on Cu1.5Te NPs. -- 2. Surface treatment with SeL sol...
Intrinsically doped samples of YCuTe_2 were prepared by solid state reaction of the elements. Based ...
Intrinsically doped samples of YCuTe2 were prepared by solid state reaction of the elements. Based o...
Intrinsically doped samples of YCuTe2 were prepared by solid state reaction of the elements. Based o...
Controlling the chemical and physical structure at the atomic level is of paramount importance for d...
Thermoelectric materials are of imperative need on account of the worldwide energy crisis. However, ...
Cu2-xS and Cu2-xSe have recently been reported as promising thermoelectric (TE) materials for medium...
Advanced thermoelectric technology offers a potential for converting waste industrial heat into usef...
Measurements and modeling of Cu2Se, Ag2Se, and Cu2S show that superionic conductors have great poten...
Among all the state-of-the-art high temperature thermoelectric materials, the superionic Cu2-xSe and...
Due to the nature of their liquid-like behavior and high dimensionless figure of merit, Cu X (X = Te...
Thermoelectric figure-of-merit (ZT) of ∼1.6 at 700 °C is achieved in β-phase copper selenide (Cu2Se)...
In the last decade, high-performance Cu2Se thermoelectric materials and devices are attracting incre...
Cu2Te is a superionic conductor that belongs to the Phonon Liquid Electron Crystal class of thermoel...
Binary Cu2Se and Cu2Te have gained great attention recently because of their interesting and abnorma...
14 pages. -- 1. Synthesize and characterization on Cu1.5Te NPs. -- 2. Surface treatment with SeL sol...
Intrinsically doped samples of YCuTe_2 were prepared by solid state reaction of the elements. Based ...
Intrinsically doped samples of YCuTe2 were prepared by solid state reaction of the elements. Based o...
Intrinsically doped samples of YCuTe2 were prepared by solid state reaction of the elements. Based o...
Controlling the chemical and physical structure at the atomic level is of paramount importance for d...
Thermoelectric materials are of imperative need on account of the worldwide energy crisis. However, ...
Cu2-xS and Cu2-xSe have recently been reported as promising thermoelectric (TE) materials for medium...
Advanced thermoelectric technology offers a potential for converting waste industrial heat into usef...
Measurements and modeling of Cu2Se, Ag2Se, and Cu2S show that superionic conductors have great poten...
Among all the state-of-the-art high temperature thermoelectric materials, the superionic Cu2-xSe and...
Due to the nature of their liquid-like behavior and high dimensionless figure of merit, Cu X (X = Te...
Thermoelectric figure-of-merit (ZT) of ∼1.6 at 700 °C is achieved in β-phase copper selenide (Cu2Se)...
In the last decade, high-performance Cu2Se thermoelectric materials and devices are attracting incre...
Cu2Te is a superionic conductor that belongs to the Phonon Liquid Electron Crystal class of thermoel...
Binary Cu2Se and Cu2Te have gained great attention recently because of their interesting and abnorma...
14 pages. -- 1. Synthesize and characterization on Cu1.5Te NPs. -- 2. Surface treatment with SeL sol...