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Pyrochlore mineral preferably incorporates large amount of Pu, U (upto 30 %wt) and Thorium (up to 9 %wt.) into its structure [1-4]. Pyrochlores structure is the primary consideration as immobilization barriers for utilization of excess weapons-grade plutonium and other radioactive elements [5-7]. Pyrochlores exists as huge polyhedra with coordination numbers ranging from 7–8; which makes them hold a wide variety of radio-nuclide (e.g., Pu, U, Ba, Sr, etc.) as well as neutron position (e.g., Hf, Gd) [8]. Due to their high radiation tolerance, these are largely used as combined inert matrix fuel forms and waste forms for the “burning” and final disposing of Pu and the minor actinides [8]. As solid electrolytes and mixed ionic/electronic conducing electrodes [9], catalyst [5], and ferroelectric/dielectric device components [11–13], Rare Earth (RE, also known an lanthanides) titanate pyrochlore (RE2Ti2O7, where RE = Lu - Sm, or Y) could be adopted.

Pyrochlore  mineral preferentiallypreferably incorporates large amounts of Pu, U (up to 30 wt%wt) and ThoriumTh  (up to 9 wt%wt.) into its structure [1-4]. Pyrochlores structure is the primary consideration as immobilization barriers for utilization of excess weapons-grade plutonium and other radioactive elements [5-7].  Pyrochlores exists in nature as largehuge polyhedra with coordination numbers ranging from of 7–8; this which makes them capable of accommodatinghold a wide variety of radio-nuclides (e.g., Pu, U, Ba, and Sr, etc.) as well as neutron poisonsposition (e.g., Hf and , Gd) [8]. As a result, the pyrochlore structure is the primary consideration as immobilization barriers for utilization of excess weapons-grade plutonium and other radioactive elements [5-7]. OwingDue to the their high radiation tolerance of pyrochlores, theyse are largely used as combined inert matrix fuel forms and waste forms for the “burning” and final disposaldisposing of the major actinide Pu and the minor actinides [8]. Rare earth (RE, also known as lanthanides) titanate pyrochlore (RE2Ti2O7, where RE = Lu - Sm, or Y) have potential applications asAs solid electrolytes and mixed ionic/electronic conducting electrodes [9], catalysts [5], and ferroelectric/dielectric device components [11–13], Rare Earth (RE, also known an lanthanides) titanate pyrochlore (RE2Ti2O7, where RE = Lu - Sm, or Y) could be adopted.

Pyrochlore mineral preferably incorporates large amount of Pu, U (upto 30 %wt) and Thorium (up to 9 %wt.) into its structure [1-4]. Pyrochlores structure is the primary consideration as immobilization barriers for utilization of excess weapons-grade plutonium and other radioactive elements [5-7]. Pyrochlores exists as huge polyhedra with coordination numbers ranging from 7–8; which makes them hold a wide variety of radio-nuclide (e.g., Pu, U, Ba, Sr, etc.) as well as neutron position (e.g., Hf, Gd) [8]. Due to their high radiation tolerance, these are largely used as combined inert matrix fuel forms and waste forms for the “burning” and final disposing of Pu and the minor actinides [8]. As solid electrolytes and mixed ionic/electronic conducing electrodes [9], catalyst [5], and ferroelectric/dielectric device components [11–13], Rare Earth (RE, also known an lanthanides) titanate pyrochlore (RE2Ti2O7, where RE = Lu - Sm, or Y) could be adopted.

Pyrochlore mineralpreferentially preferably incorporates large amounts of Pu, U (up to 30 wt%wt), and ThThorium  (up to 9 wt%wt.) into its structure [1-4]. The Ppyrochlores structure is the primary consideration as immobilization barriers for utilization of excess weapons-grade plutonium and other radioactive elements  [5-7]. Pyrochlores exists in nature as largehuge polyhedra with coordination numbers of ranging from 7–8; this makes; which makes them capable of accommodatinghold  a wide variety of radio-nuclides (e.g., Pu, U, Ba, and Sr, etc.) as well as neutron poisonsposition   (e.g., Hf and, Gd) [8]. Due Owingto their high radiation tolerance of pyrochlores, theyse are  used largely used as combined inert matrix fuel forms and waste forms  for the “burning”  and final disposing disposal of the major actinide Pu  and the minor actinides  [8]. Rare earth (RE, also known as lanthanides) titanate pyrochlore (RE2Ti2O7, where RE = Lu - Sm , or Y) have potential applications asAs solid electrolytes and mixed ionic/electronic conducting electrodes [9], catalysts [5], and ferroelectric/dielectric device components [11–13 ], Rare Earth (RE, also known an lanthanides) titanate pyrochlore (RE2Ti2O7, where RE = Lu - Sm, or Y) could be adopted.

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