13314-51-7 Usage
Uses
Used in Electronics Industry:
Triethyl(iodo)germane is used as a precursor for the synthesis of germanium-containing thin films and nanoparticles, which are essential in the development of electronic devices. Its reactivity and ability to form germanium-based materials contribute to the advancement of electronic components and systems.
Used in Semiconductor Industry:
In the semiconductor industry, triethyl(iodo)germane serves as a crucial precursor for the production of germanium-based semiconductor materials. These materials are vital for the fabrication of high-performance semiconductor devices, such as transistors and diodes, due to their unique electronic properties.
Used in Catalysis:
Triethyl(iodo)germane is employed as a catalyst or a catalyst precursor in various chemical reactions. Its reactivity and ability to form germanium-based catalysts make it a valuable tool in the field of catalysis, enabling the development of more efficient and selective catalytic processes.
It is important to handle triethyl(iodo)germane with caution due to its flammability and toxicity, ensuring safety measures are in place during its use in these industries.
Check Digit Verification of cas no
The CAS Registry Mumber 13314-51-7 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,3,3,1 and 4 respectively; the second part has 2 digits, 5 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 13314-51:
(7*1)+(6*3)+(5*3)+(4*1)+(3*4)+(2*5)+(1*1)=67
67 % 10 = 7
So 13314-51-7 is a valid CAS Registry Number.
13314-51-7Relevant academic research and scientific papers
METAL-HALOGEN BONDING STUDIES WITH GROUP IV A TRIALKYLMETAL HALIDES
Friedrich, Edwin C.,Abma, Charles B.,Vartanian, Paul F.
, p. 203 - 212 (2007/10/02)
Halogen redistribution reactions have been found to take place between benzyl bromide or benzyl iodide and the Group IV A silicon, germanium, tin, and lead containing trialkylmetal chlorides.However, for the reactions of the Si, Ge and Sn compounds, a quaternary ammonium halide catalyst was necessary to enable the equilibria to be established at reasonably rapid rates.The equilibrium constants at 50 deg C have been measured for each of these halogen redistributions.They have been found to increase gradually on going down in Group IV A from silicon to lead, being conside rably less than unity in the case of silicon and somewhat greater than unity in the case of lead for both the R3MCl + BzBr and R3MCl + BzI reactions.The ΔG0 values for these equilibria have been calculated, and it is suggested that their differences may be explained in terms of the relative importance of p?-d? contributions to the halogen-metal bonding in the various Group IV A trialkylmetal halide systems.
