Add to ORKGIndium (I) iodide, InI, is part of a group of heavy metal iodides that can be used as room temperature radiation detectors. Other examples are HgI2, PbI2, BiI3, or TlPbI3. InI has several advantages, such as low toxicity, no solid phase transition (such as in HgI2), and no tendency to form polytypes (PbI2, BiI3 ). All binary iodides have layered structures and are quite soft, but InI is also the mechanically most stable compound of the binary compounds. Table 1 shows the main properties of InI in comparison with the other iodides and the most common room temperature radiation detector material, (Cd, Zn)Te. InI is typically grown by the unseeded Bridgman method using a nucleation tip, but Czochralski (CZ) growth has also been demonstrated. T...
Lead iodide is an important inorganic solid for fundamental research and possible technological appl...
Lead iodide starting materials have been purified by a multipass zone refining process. The effectiv...
Cubic-InN was grown at a low temperature of 350 degrees C using our home-made low-pressure metal-org...
The indium monoiodide (InI) semiconductor is a promising candidate for Gamma-ray and X-ray radiation...
The present work is focused on developing new semiconductor materials based on Indium Monoiodide (In...
Indium iodide (InI) is a promising wide energy band gap nuclear detector material. It is ideal for s...
Indium Antimonide (InSb) has possibility to be developed as the next generation radiation detector d...
Results of Rietveld refinement for indium nitride data collected in the temperature range 105-295 K ...
During the past 40 years, dozens of semiconductor crystal growth experiments have been conducted in ...
Currently there is a worldwide trend to increase the diameter of crystals grown from elemental semic...
Indium- doped Silicon is being investigated as an extrinsic photoconductor material for use in the 3...
Mercuric iodide is a material used for the fabrication of the sensing element in solid state X-ray a...
With the prospect of application for the detection of low energy solar neutrinos the crystal chemist...
The recent discovery of the photovoltaic (PV) effect in indium(i) iodide thin films has attracted co...
As is already well-known, individual domains in yellow β-InI3 transform irreproducibly into red α-In...
Lead iodide is an important inorganic solid for fundamental research and possible technological appl...
Lead iodide starting materials have been purified by a multipass zone refining process. The effectiv...
Cubic-InN was grown at a low temperature of 350 degrees C using our home-made low-pressure metal-org...
The indium monoiodide (InI) semiconductor is a promising candidate for Gamma-ray and X-ray radiation...
The present work is focused on developing new semiconductor materials based on Indium Monoiodide (In...
Indium iodide (InI) is a promising wide energy band gap nuclear detector material. It is ideal for s...
Indium Antimonide (InSb) has possibility to be developed as the next generation radiation detector d...
Results of Rietveld refinement for indium nitride data collected in the temperature range 105-295 K ...
During the past 40 years, dozens of semiconductor crystal growth experiments have been conducted in ...
Currently there is a worldwide trend to increase the diameter of crystals grown from elemental semic...
Indium- doped Silicon is being investigated as an extrinsic photoconductor material for use in the 3...
Mercuric iodide is a material used for the fabrication of the sensing element in solid state X-ray a...
With the prospect of application for the detection of low energy solar neutrinos the crystal chemist...
The recent discovery of the photovoltaic (PV) effect in indium(i) iodide thin films has attracted co...
As is already well-known, individual domains in yellow β-InI3 transform irreproducibly into red α-In...
Lead iodide is an important inorganic solid for fundamental research and possible technological appl...
Lead iodide starting materials have been purified by a multipass zone refining process. The effectiv...
Cubic-InN was grown at a low temperature of 350 degrees C using our home-made low-pressure metal-org...