Exotic cluster states in actinide nuclei by Buck, B, Merchant, A, Perez, S

Core-cluster partitions of actinide nuclei by Buck, B, Merchant, A, Perez, S, Seals, H

Actinide interactions with redox-active minerals and sediments. by Neu, M, Smith, D, Myers, W, Ginder-Vogle, M, Reilly, S, Skanthakumar, S, Soderholm, L

Alternative view of collective bands in actinide nuclei by Buck, B, Merchant, A, Perez, S

Actinide sorption to synthetic and biogenic MNO2. by Myers, W, Smith, D, Ginder-Vogel, M, Reilly, S, Soderholm, L, Skanthakumar, S, Neu, M

Direct monitoring of speciation for minor actinide separations by Stuber, W

“…<p>One of the major challenges in the development of future generations of nuclear reprocessing procedures is the separation of the minor actinides from the chemically similar trivalent lanthanide ions.…”

Cluster structure and gamma transitions in actinide nuclei by Buck, B, Merchant, A, Perez, S

Exotic cluster model of band structure in actinides by Buck, B, Merchant, A, Perez, S

“…A binary cluster model reproduces, without ad hoc symmetry assumptions, the J(pi) = 0(+), 2(+), 4(+), ... and 1(-), 3(-), 5(-), ... spin sequences of the low-lying bands in actinide nuclei, as well as the corresponding quasi-rotational excitation energies and enhanced E2 transition rates. …”

Synthesis and characterization of three dimensionally connected actinide frameworks. by O'Hare, D, Doran, M, Walker, S, Thomas, P, Halasyamani, S

Systematic study of exotic clustering in even-even actinide nuclei by Buck, B, Merchant, A, Perez, S

Assessing continental weathering rates and actinide transport in the Great Artesian Basin by Pogge von Strandmann, P, Reynolds, B, Porcelli, D, James, R, van Calsteren, P, Baskaran, M, Burton, K

New surprises "down below": Recent successes in the synthesis of actinide materials by Sarrao, J, Haga, Y, Ward, R

“…Recent discoveries of novel electronic states, including relatively high-temperature superconductivity, in the actinides point to exciting prospects for future discoveries at the bottom of the periodic table. …”

Structure of even-even actinides in the interacting boson model and the N = 152 subshell closure by Rikovska, J, Bonatsos, D

“…We show that a wide range of deformed actinides can be described in terms of an interacting boson model hamiltonian with three parameters, two of them [including the coefficient of the only SU(3) symmetry breaking term] remaining almost constant over the whole region. …”

The first open framework actinide material (C4N2H12)U2O4F6 (MUF-1) by Halasyamani, P, Walker, S, O'Hare, D

[(Th2F5)(NC7H5O4)2(H2O)][NO3]: an actinide-organic open framework. by Kim, J, Norquist, A, O'Hare, D

“…We believe [(Th2F5)(NC7H5O4)2(H2O)][NO3] is the first three-dimensionally connected, actinide-organic framework solid. The structure is composed of thorium oxyfluoride chains, each of which connected to pyridinedicarboxylate groups to give a 3D cross-linked network with cavities containing nitrate anions.…”

[NC4H12]2[(UO2)6(H2O)2(SO4)7]: the first organically templated actinide sulfate with a three-dimensional framework structure. by Doran, M, Norquist, A, O'Hare, D

“…[NC4H12][(UO2)6(H2O)2(SO4)7] is the first organically templated actinide sulfate with a three-dimensional framework structure; it has channels of dimensions 8.5 A x 8.5 A, running along the [001] direction, containing tetramethylammonium cations.…”

Synthesis and characterisation of (C4N2H12)(UO2)2(PO3H)2(PO2(OH)H)2: a three dimensionally connected actinide framework. by Doran, M, Walker, S, O'Hare, D

A low initial abundance of (CM)-C-247 in the early solar system and implications for r-process nucleosynthesis by Stirling, C, Halliday, A, Potter, E, Andersen, M, Zanda, B

“…J. 466 (1996) L109-L113], or via a distinct r-process event that is separate from actinide production [G.J. Wasserburg, M. Busso, R. …”

Criteria for comparison of bands in even-even nuclei by Buck, B, Merchant, A, Perez, S

“…We compare our predictions to data on ground state ND bands for a series of light rare-earth and actinide isotopes.…”

Electronic structure, excited states, and photoelectron spectra of uranium, thorium, and zirconium bis(Ketimido) complexes (C5R5)2M[-NCPh2]2 (M = Th, U, Zr; R = H, CH3). by Clark, A, Martin, R, Hay, P, Green, J, Jantunen, K, Kiplinger, J

“…Organometallic actinide bis(ketimide) complexes (C5Me5)2An[-N=C(Ph)(R)]2 (where R = Ph, Me, and CH2Ph) of thorium(IV) and uranium(IV) have recently been synthesized that exhibit chemical, structural, and spectroscopic (UV-Visible, resonance-enhanced Raman) evidence for unusual actinide-ligand bonding. …”