Chemical Formula: Pr(1-x)CexMnO3
Catalog Number: ST0464
Purity: 99.9%, 99.99%, 99.999%
Shape: Discs, Plates, Column Targets, Step Targets, Custom-made
Praseodymium is a chemical element originated from the Greek ‘prasios didymos’ meaning green twin. It was first mentioned in 1885 and observed by A. von Welsbach. “Pr” is the canonical chemical symbol of praseodymium. Its atomic number in the periodic table of elements is 59 with location at Period 6 and Group 3, belonging to the f-block. The relative atomic mass of praseodymium is 140.90765(2) Dalton, the number in the brackets indicating the uncertainty.
Cerium is a chemical element originated from Ceres, the Roman God of agriculture. It was first mentioned in 1803 and observed by H. Klaproth, J. Berzelius, and W. Hisinger. The isolation was later accomplished and announced by G. Mosander. “Ce” is the canonical chemical symbol of cerium. Its atomic number in the periodic table of elements is 58 with location at Period 6 and Group 3, belonging to the f-block. The relative atomic mass of cerium is 140.116(1) Dalton, the number in the brackets indicating the uncertainty.
Manganese is a chemical element originated from Either the Latin ‘magnes’, meaning magnet or from the black magnesium oxide, ‘magnesia nigra’. It was first mentioned in 1770 and observed by O. Bergman. The isolation was later accomplished and announced by G. Gahn. “Mn” is the canonical chemical symbol of manganese. Its atomic number in the periodic table of elements is 25 with location at Period 4 and Group 7, belonging to the d-block. The relative atomic mass of manganese is 54.938045(5) Dalton, the number in the brackets indicating the uncertainty.
Our Praseodymium Cerium Manganate Sputter Targets are carefully handled to prevent damage during storage and transportation and to preserve the quality of our products in their original condition.
We specialize in producing high purity Praseodymium Cerium Manganate Sputtering Target with the highest possible density and smallest possible average grain sizes for use in semiconductor, chemical vapor deposition (CVD) and physical vapor deposition (PVD) display and optical applications.
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