Description
Product number: Depleted Molybdenum 95 Mo 95
CAS:-
Purity: 99.99 %
Product specifications: 100g , 500g ,1000g
Product form: Molybdenum metal
Main use: The main components of uranium molybdenum alloy materials in advanced nuclear energy devices.
Availability : Pre Stock
What is Molybdenum-95 (95Mo) ?
Molybdenum-95 (95Mo) refers to depleted Molybdenum-95 (95Mo) , a form of the molybdenum isotope 95Mo that has been deliberately reduced in concentration, typically through isotope separation techniques. This is done because Mo-95 has a relatively high neutron absorption cross section, meaning it absorbs neutrons more readily than other molybdenum isotopes
Certificate of Analysis
| ITEMS | UNIT | SPECIFICATION | RESULT | |
| Purity | % | ≥ 99.99 | > 99.99 | |
| Enrichment Test | ||||
| ITEMS | UNIT | SPECIFICATION | RESULT | |
| Mo -100 | AT % | < 0.5 | < 0.5 | |
China Isotope Development Co.,Ltd ,as a emerging Isotope supplier, is starting to supply Depleted Molybdenum-95 (95Mo) to serve Researches & Institues step by step , gaining their trust ranging from its quality / price / delivery. We know each parameters of product,refering to above specifications, to solve their questions on site , and pursuit to continue serving clients better.
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What are applications of Depleted Molybdenum-95 (95Mo) ?
Depleted molybdenum-95 (Mo-95) has several potential uses, primarily in nuclear fuel and materials science. It can be used to improve the safety and performance of nuclear fuel, particularly in high-temperature applications, and also has applications in the study of planetary differentiation and core formation.
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UMo Fuel Elements:
Depleted Mo-95 can be used in UMo (uranium-molybdenum) fuel elements for materials test reactors. These reactors require high neutron flux and burnup, and the Mo-95 depletion helps to mitigate the negative impact of molybdenum on the reactivity of the fuel.
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High-Temperature Nuclear Fuel Components:
Depleted Mo-95 has a higher melting point than standard zirconium cladding material, making it suitable for producing high-temperature resistant nuclear fuel components, potentially enhancing the safety of nuclear power.
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Isotopically Modified Molybdenum:
By depleting Mo-95, the remaining molybdenum can be used as a structural material for fuel element claddings, potentially improving their thermophysical characteristics.
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Planetary Differentiation Studies:
Molybdenum isotopes, including Mo-95, are used to study planetary differentiation processes like core formation. These studies rely on understanding how Mo isotopes fractionate between liquid silicate and liquid metal at high temperatures.
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High-Temperature Stable Isotope Fractionation:
Mo isotopes can provide insights into processes like crust production and crust-mantle interaction at high temperatures.
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Mantle Heterogeneity:
Mo isotopes are used to understand mantle heterogeneity and the processes of mantle-crustal recycling.
- Medical Radioisotope Production: While Mo-95 itself is not directly used for medical purposes, other molybdenum isotopes, like Mo-96, are used in the production of medical radioisotopes such as Tc-96 and Tc-95m, which have medical applications.
- Nutrition Studies: Most molybdenum isotopes are also used in human nutrition studies.
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