TY - JOUR
T1 - Electrochemical, room temperature reduction, oxidation and microscopic patterning of multinary cuprate superconductors
AU - Scolnik, Yosef
AU - Rappaport, Michael
AU - Cahen, David
PY - 1993/1
Y1 - 1993/1
N2 - YBa2Cu307 (1237) was reduced and reoxidized at room temperature (RT), by using wet electrochemistry to extract, or solid state electrochemistry to re-insert oxygen. With thin films this led to homogeneous products, as judged by X raydiffraction and temperature dependence of electrical resistivity. Because reduction leads to loss of superconductivity andre-oxidation restores it, this method allows room temperature control over superconducting properties of (parts of) filmsand, thus, can be used for patterning of (1237) thin films. We showed this by preparing SNS-like structures by thismethod. The method affords control not only over bulk properties, but also over the quality of the intergranular contact, possibly via control of oxygen concentration and ordering in the outermost layers of grains (in films and pellets). Theresults imply rapid, field-assisted, oxygen motion and this was confirmed by independent measurements.
AB - YBa2Cu307 (1237) was reduced and reoxidized at room temperature (RT), by using wet electrochemistry to extract, or solid state electrochemistry to re-insert oxygen. With thin films this led to homogeneous products, as judged by X raydiffraction and temperature dependence of electrical resistivity. Because reduction leads to loss of superconductivity andre-oxidation restores it, this method allows room temperature control over superconducting properties of (parts of) filmsand, thus, can be used for patterning of (1237) thin films. We showed this by preparing SNS-like structures by thismethod. The method affords control not only over bulk properties, but also over the quality of the intergranular contact, possibly via control of oxygen concentration and ordering in the outermost layers of grains (in films and pellets). Theresults imply rapid, field-assisted, oxygen motion and this was confirmed by independent measurements.
KW - Josephson
KW - Junction
KW - Monolithic
KW - Superconductor
KW - YBa2Cu307
UR - http://www.scopus.com/inward/record.url?scp=0042669232&partnerID=8YFLogxK
U2 - 10.7567/JJAPS.32S3.683
DO - 10.7567/JJAPS.32S3.683
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AN - SCOPUS:0042669232
SN - 0021-4922
VL - 32
SP - 683
EP - 685
JO - Japanese Journal of Applied Physics
JF - Japanese Journal of Applied Physics
IS - S3
ER -