Open Access Open Access  Restricted Access Subscription Access

Advancement of High–k ZrO2 for Potential Applications: A Review


Affiliations
1 University School of Basic and Applied Sciences, Guru Gobind Singh Indraprastha University, New Delhi – 110 078, India
2 Department of Computer Science & Engineering, Maharaja Surajmal Institute of Technology, New Delhi-110 058, India
3 Department of Physics, Ramjas College, University of Delhi, Delhi, India
4 Department of Physics, College of Science, King Faisal University, P.O. Box-400, Al-Ahsa 31982,

Versatile zirconium oxide as a ceramic has propelled a rapid development of science and technology for diverse applications. Among the class of ceramics it holds a distinctive position due to its excellent physical, chemical and mechanical properties owing to its phase transformation. Zirconia is high k- dielectric, mechanical resistance and high radiation tolerance material. Although, this material replace SiO2 due to its higher dielecotric constant so it can be employed to various memory device applications. It has essential implications in nuclear reactors, inert matrix fuel, nuclear waste systems, container for radioactive materials and designing of new materials owing to its high radiation tolerance property. Dentists proclaim zirconium oxide “ceramic steel” where it has attracted prosthetic dentistry because of its strength and esthetics are admired. Addition of few percentages of stabilizers such as Y2O3, MgO and Ni etc. make it useful for specific applications. Zirconium oxide ceramic is indispensably used as an electrode and electrolyte in energy efficient solid state electrochemical devices (fuel cells) that generates electricity with good efficiency from natural gas and fuel cell plants and provides auxiliary power in vehicles. One of its important phase transformation mechanism is being focused and extensively reviewed due to the effect of temperature variation and ion beam irradiation effect.The objective of current review is to present the knowledge of extensive properties, synthesis techniques and its various implicationsand guidelines for optical, medical, fuel cells, biological and electrical and memory devices and nuclear applications. The advantages of zirconia with respect to other oxide materials are also reviewed.
User
Notifications
Font Size

Abstract Views: 191




  • Advancement of High–k ZrO2 for Potential Applications: A Review

Abstract Views: 191  | 

Authors

Rajesh Kumar
University School of Basic and Applied Sciences, Guru Gobind Singh Indraprastha University, New Delhi – 110 078, India
Vishnu Chauhan
University School of Basic and Applied Sciences, Guru Gobind Singh Indraprastha University, New Delhi – 110 078, India
Deepika Gupta
University School of Basic and Applied Sciences, Guru Gobind Singh Indraprastha University, New Delhi – 110 078, India
Sonica Upadhyay
Department of Computer Science & Engineering, Maharaja Surajmal Institute of Technology, New Delhi-110 058, India
Jagjeevan Ram
Department of Physics, Ramjas College, University of Delhi, Delhi, India
Shalendra Kumar
Department of Physics, College of Science, King Faisal University, P.O. Box-400, Al-Ahsa 31982,

Abstract


Versatile zirconium oxide as a ceramic has propelled a rapid development of science and technology for diverse applications. Among the class of ceramics it holds a distinctive position due to its excellent physical, chemical and mechanical properties owing to its phase transformation. Zirconia is high k- dielectric, mechanical resistance and high radiation tolerance material. Although, this material replace SiO2 due to its higher dielecotric constant so it can be employed to various memory device applications. It has essential implications in nuclear reactors, inert matrix fuel, nuclear waste systems, container for radioactive materials and designing of new materials owing to its high radiation tolerance property. Dentists proclaim zirconium oxide “ceramic steel” where it has attracted prosthetic dentistry because of its strength and esthetics are admired. Addition of few percentages of stabilizers such as Y2O3, MgO and Ni etc. make it useful for specific applications. Zirconium oxide ceramic is indispensably used as an electrode and electrolyte in energy efficient solid state electrochemical devices (fuel cells) that generates electricity with good efficiency from natural gas and fuel cell plants and provides auxiliary power in vehicles. One of its important phase transformation mechanism is being focused and extensively reviewed due to the effect of temperature variation and ion beam irradiation effect.The objective of current review is to present the knowledge of extensive properties, synthesis techniques and its various implicationsand guidelines for optical, medical, fuel cells, biological and electrical and memory devices and nuclear applications. The advantages of zirconia with respect to other oxide materials are also reviewed.