Bismuth strontium calcium copper oxide

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The unit cell of BSCCO-2212. The other BSCCO family members have very similar structures: 2201 has one less CuO2 in its top and bottom half and no Ca layer, while 2223 has an extra CuO2 and Ca layer in each half.
The unit cell of BSCCO-2212. The other BSCCO family members have very similar structures: 2201 has one less CuO2 in its top and bottom half and no Ca layer, while 2223 has an extra CuO2 and Ca layer in each half.

Bismuth strontium calcium copper oxide, or BSCCO (pronounced "bisko"), is a family of high-temperature superconductors having the generalized chemical formula Bi2Sr2CanCun+1O2n+6.

Specific types of BSCCO are usually referred to using the sequence of the numbers of the metallic ions. Thus BSCCO-2212 (Bi2Sr2Ca1Cu2O8) has a critical temperature of 95 K and BSCCO-2223 (Bi2Sr2Ca2Cu3O10) has Tc = 107 K. Both these critical temperatures are above the temperature of liquid nitrogen (b.p. 77 K). BSCCO was also the first high-temperature superconductor to be discovered which did not contain a rare earth element.

BSCCO-2212 is the first high-temperature superconductor to be used for making conducting wires. Although it has the same problems with weak links at crystal grain boundaries as YBCO, for BSCCO this can be overcome by a texture evolution during the rolling process due to Van-der-Waals coupled BiO layers, which are not present in YBCO. However, its critical current density (maximal Amps per square Metre of cross-sectional area) in magnetic fields at elevated temperatures is about a factor 10 less than that of YBCO.

Both BSCCO-2212 and BSCCO-2223 can be made into wires via the Powder in Tube process, though BSCCO-2223 then has to be rolled into a tape to align the crystals sufficiently to form a useful superconductor.

A small sample of the high-temperature superconductor  BSCCO-2223. (The two lines in the background are 1 mm apart.)
A small sample of the high-temperature superconductor BSCCO-2223. (The two lines in the background are 1 mm apart.)

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[edit] History

Discovered in 1988 by US and Japanese groups. Japanese : H. Maeda, Y. Tanaka, M. Fukutumi, and T. Asano, Jpn. J. Appl. Phys. 27, L209 (1988).

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[edit] Applications

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