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Praseodymium Calcium Manganite Sputtering Targets and Applications

Praseodymium Calcium Manganite is a chemical compound which consists of a rare metal praseodymium, calcium, manganese and oxygen. This compound has a perovskite structure. Manganite perovskite materials are investigated for their good electrical and magnetic properties.
Being one of manganite perovskites, praseodymium calcium manganite sputtering target has been investigated for its significant magnetoresistance properties, and also for the recently observed electric-pulse-induced resistance (EPIR). This is an interesting property and according the studies completed by scientists praseodymium calcium manganite sputtering targets can be used in next-generation nonvolatile resistance random access memories and semiconductor field.
There are several methods for producing praseodymium calcium manganite thin films like pulsed laser deposition, molecular beam epitaxy, and magnetron sputtering. Manganese perovskites are extremely sensitive to structural/chemical alteration, and so the substrate nature is very important on the morphology as well as on the transport properties due to substrate-induced strain. If the lattice mismatch occurs between the manganite films and the substrate, this situation may affect magnetic and electrical properties, such as the temperature and field behavior of the resistivity, the ferromagnetic transition temperature (Tc) and the metallic/insulating transition temperature (Tp).
To have an idea about film formation of praseodymium calcium manganite, you may check the link given below:
If you would like to give an order of praseodymium calcium manganite for your research needs, you may click the links given below:
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