Saturday, February 23, 2019

CHEM 418 Nuclear Chemistry, Winter 2019: Lecture 15 Am and Cm chemistry

This lecture introduces the chemistry of americium and curium. Both elements are discussed due to their similar chemical behavior, particularly in separations. However, important differences in their chemistry are highlighted. For americium pentavalent and hexavalent species are achievable. For curium, its unique fluorescence properties are highlighted. The nuclear properties of americium and curium isotopes are provided. Isotope production focus on those formed from multiple neutron capture. These isotopes, 241Am, 243Am, 244Cm and 248Cm, are used to explore americium and curium chemistry. The basic solution chemistry is described, along with implications for fuel cycle separations. Methods for the separation of americium and curium are provided, including solvent extractions, anion exchange, precipitation, and molten salt techniques. Synthesis and characterization of americium and curium metals, alloys, and compounds are provided, with emphasis placed on those compounds of importance to the nuclear fuel cycle. The non-aqueous and coordination chemistry of these elements are introduced. The limited available data offers an avenue for novel explorations and future research directions. The lecture is in 2 parts; part 1 is 29 minutes and part 2 is 29 minutes.
The lecture is assigned on Wednesday 27 February 2019 and due Wednesday 6 March 2019.  When you have completed the lecture please comment on the blog Links to an external site.and respond to the Lecture 15 PDF quiz. The answers to the Lecture 15 PDF quiz will be posted Thursday 7 March 2018.

20 comments:

  1. Quiz 15 has been submitted!

    ReplyDelete
  2. Submitted on canvas and email!

    ReplyDelete
  3. Quiz 15 has been submitted.

    ReplyDelete
  4. Quiz 15 has been submitted via Canvas.

    ReplyDelete
  5. Quiz 15 submitted.

    ReplyDelete
  6. Quiz 15 submitted

    ReplyDelete
  7. Quiz 15 is submitted on Canvas.

    ReplyDelete
  8. quiz has been submitted via email.

    ReplyDelete
  9. Submitted on Canvas

    ReplyDelete