Ryan J. Pakula scite author profile

Ryan J. Pakula

5Publications

17Citation Statements Received

303Citation Statements Given

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Affiliations

University of Michigan–Ann Arbor, University of Wisconsin–Madison

Publications

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Cobalt complexes of the chelating dicarboxylate ligand “esp”: a paddlewheel-type dimer and a heptanuclear coordination cluster

Pakula

Berry

2018

Dalton Trans.

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The coordination chemistry of Co(ii) with the chelating dicarboxylate ligand esp (esp = α,α,α',α'-tetramethyl-1,3-benzenedipropionate) is explored. We report here the bimetallic paddlewheel-type dimer, Co2(esp)2(EtOH)2 (1), and a bowl-shaped, heptanuclear coordination cluster, Co7(OH)4(Hesp)2(esp)4(MeCN)2·4MeCN (2). Crystal structures of both complexes are reported as well as their magnetic properties, which indicate antiferromagnetic interactions among the Co(ii) ions.

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Palladium Acetate Revisited: Unusual Ring-Current Effects, One-Electron Reduction, and Metal–Metal Bonding

et al. 2018

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Palladium(II) acetate (1) and two new complexes of the ligand α,α,α',α'-tetramethyl-1,3-benzenedipropionate (esp), C -Pd(esp) ( C-2) and C-Pd(esp) ( C-2), are studied in the solid state and in solution. Variable-temperature NMR and DFT studies of C -2 reveal an unusual shielding region above the Pd atoms. The compounds show a surprising quasi-reversible reduction between -880 and -1200 mV versus Fc/Fc, and the Pd(esp) complexes may be cleanly reduced electrochemically. EPR spectra of reduced samples show pseudo-axial signals with Pd hyperfine coupling, consistent with unprecedented, isostructural Pd species with a valence-trapped Pd-Pd-Pd electronic structure.

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Automated production of [11C]butyrate for keto body PET imaging

Pakula

Raffel

Koeppe

et al. 2023

Nuclear Medicine and Biology

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Applications of radiolabeled antibodies in neuroscience and neuro‐oncology

Pakula

Scott

2023

Labelled Comp Radiopharmac

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Positron emission tomography (PET) is a powerful tool in medicine and drug development, allowing for non‐invasive imaging and quantitation of biological processes in live organisms. Targets are often probed with small molecules, but antibody‐based PET is expanding because of many benefits, including ease of design of new antibodies toward targets, as well as the very strong affinities that can be expected. Application of antibodies to PET imaging of targets in the central nervous system (CNS) is a particularly nascent field, but one with tremendous potential. In this review, we discuss the growth of PET in imaging of CNS targets, present the promises and progress in antibody‐based CNS PET, explore challenges faced by the field, and discuss questions that this promising approach will need to answer moving forward for imaging and perhaps even radiotherapy.

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New chromium, molybdenum, and cobalt complexes of the chelating esp ligand

et al. 2019

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Ryan J. Pakula

Cobalt complexes of the chelating dicarboxylate ligand “esp”: a paddlewheel-type dimer and a heptanuclear coordination cluster

Palladium Acetate Revisited: Unusual Ring-Current Effects, One-Electron Reduction, and Metal–Metal Bonding

Automated production of [11C]butyrate for keto body PET imaging

Applications of radiolabeled antibodies in neuroscience and neuro‐oncology

New chromium, molybdenum, and cobalt complexes of the chelating esp ligand

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