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Literature DB >> 24583509

A simple and efficient method of nickel electrodeposition for the cyclotron production of (64)Cu.

Juan C Manrique-Arias¹, Miguel A Avila-Rodriguez².

Abstract

Nickel targets for the cyclotron production of (64)Cu were prepared by electrodeposition on a gold backing from nickel chloride solutions using boric acid as buffer. Parameters studied were nickel chloride and boric acid concentration, temperature and current density. All plating conditions studied were successful obtaining efficiencies of approximately 90% in 2-3 h, reaching almost quantitative plating (>97%) in 10-20 h depending on the current density. All plated targets withstood proton irradiations up to 40 µA for 2 h. Recovered nickel was successfully recycled and reused with an overall efficiency >95%.

Entities: Chemical

Keywords: Cu-64 production; Electrodeposition; Nickel chloride solutions; Nickel targets

Year: 2014 PMID： 24583509 DOI： 10.1016/j.apradiso.2014.01.024

Source DB: PubMed Journal: Appl Radiat Isot ISSN： 0969-8043 Impact factor: 1.513

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Cited

3 in total

A simple and efficient method of nickel electrodeposition for the cyclotron production of (64)Cu.

Review 1. Porphyrins as ligands for ⁶⁴copper: background and trends.

2. Biodistribution and radiation dosimetry of [⁶⁴Cu]copper dichloride: first-in-human study in healthy volunteers.

3. New ⁵⁵Co-labeled Albumin-Binding Folate Derivatives as Potential PET Agents for Folate Receptor Imaging.

A simple and efficient method of nickel electrodeposition for the cyclotron production of (64)Cu.

Review 1. Porphyrins as ligands for 64copper: background and trends.

2. Biodistribution and radiation dosimetry of [64Cu]copper dichloride: first-in-human study in healthy volunteers.

3. New 55Co-labeled Albumin-Binding Folate Derivatives as Potential PET Agents for Folate Receptor Imaging.

Review 1. Porphyrins as ligands for ⁶⁴copper: background and trends.

2. Biodistribution and radiation dosimetry of [⁶⁴Cu]copper dichloride: first-in-human study in healthy volunteers.

3. New ⁵⁵Co-labeled Albumin-Binding Folate Derivatives as Potential PET Agents for Folate Receptor Imaging.