-
126830-10M
Thomas Scientific
Indium wire, 0.5mm dia., 99.995% trace metals basis 10m
Price: $730.42List Price: $811.57CAS: 7440-74-6 EC No: 231-180-0 MDL No: MFCD00134048 RTECS: NL1050000 Solid Molecular Formula: In MW: 114.82 Melting Point: 156.6° Boiling Point: 2072° Density (g/mL): 7.3 -
126830-2.5M
Thomas Scientific
Indium wire, 0.5mm dia., 99.995% trace metals basis 2.5m
Price: $272.25List Price: $302.50CAS: 7440-74-6 EC No: 231-180-0 MDL No: MFCD00134048 RTECS: NL1050000 Solid Molecular Formula: In MW: 114.82 Melting Point: 156.6° Boiling Point: 2072° Density (g/mL): 7.3 -
218255-25M
Thomas Scientific
Indium wire, 1.0mm dia., 99.995% trace metals basis 25m
Price: $2,117.82List Price: $2,353.13CAS: 7440-74-6 EC No: 231-180-0 MDL No: MFCD00134048 RTECS: NL1050000 Solid Molecular Formula: In MW: 114.82 Melting Point: 156.6° Boiling Point: 2072° Density (g/mL): 7.3 -
218255-5M
Thomas Scientific
Indium wire, 1.0mm dia., 99.995% trace metals basis 5m
Price: $535.14List Price: $594.60CAS: 7440-74-6 EC No: 231-180-0 MDL No: MFCD00134048 RTECS: NL1050000 Solid Molecular Formula: In MW: 114.82 Melting Point: 156.6° Boiling Point: 2072° Density (g/mL): 7.3 -
127080-1M
Thomas Scientific
Indium wire, 1.5mm dia., 99.99% trace metals basis 1m
Price: $305.13List Price: $339.03CAS: 7440-74-6 EC No: 231-180-0 MDL No: MFCD00134048 RTECS: NL1050000 Solid Molecular Formula: In MW: 114.82 Melting Point: 156.6° Boiling Point: 2072° Density (g/mL): 7.3 -
413658-5GApplication Has been discovered and used as a reagent to propagate some organic reactions, such as cyclization and cleavage of diselenide or disulfide. Can also be used to prepare In-containing complexes.
-
578606-10GIndium(I) iodide
-
578606-2GIndium(I) iodide
-
413666-1GApplication Used to prepare vinyl and methyl indates which undergo regioselective reactions with cinnamyl bromide.
-
413666-5GApplication Used to prepare vinyl and methyl indates which undergo regioselective reactions with cinnamyl bromide.
-
366870-1GIndium(III) phosphide
-
403318-5GIndium selenide (In 2 Se 3 ) exists in 4 crystal structures (α,β,δ,γ).The metallic α-phase of indium selenide converts to intrinsic conduction β-phase under change in temperature.