Johan Hygum Dam scite author profile

The direct synthesis of amides from alcohols and amines is described with the simultaneous liberation of dihydrogen. The reaction does not require any stoichiometric additives or hydrogen acceptors and is catalyzed by ruthenium N-heterocyclic carbene complexes. Three different catalyst systems are presented that all employ 1,3-diisopropylimidazol-2-ylidene (IiPr) as the carbene ligand. In addition, potassium tert-butoxide and a tricycloalkylphosphine are required for the amidation to proceed. In the first system, the active catalyst is generated in situ from [RuCl(2)(cod)] (cod=1,5-cyclooctadiene), 1,3-diisopropylimidazolium chloride, tricyclopentylphosphonium tetrafluoroborate, and base. The second system uses the complex [RuCl(2)(IiPr)(p-cymene)] together with tricyclohexylphosphine and base, whereas the third system employs the Hoveyda-Grubbs 1st-generation metathesis catalyst together with 1,3-diisopropylimidazolium chloride and base. A range of different primary alcohols and amines have been coupled in the presence of the three catalyst systems to afford the corresponding amides in moderate to excellent yields. The best results are obtained with sterically unhindered alcohols and amines. The three catalyst systems do not show any significant differences in reactivity, which indicates that the same catalytically active species is operating. The reaction is believed to proceed by initial dehydrogenation of the primary alcohol to the aldehyde that stays coordinated to ruthenium and is not released into the reaction mixture. Addition of the amine forms the hemiaminal that undergoes dehydrogenation to the amide. A catalytic cycle is proposed with the {(IiPr)Ru(II)} species as the catalytically active components.

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Implementation of Value Based Breast Cancer Care

Egdom

Lagendijk

Kemp³

et al. 2019

European Journal of Surgical Oncology

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Radiosynthesis of ⁵⁵Co‐ and ^58mCo‐labelled DOTATOC for positron emission tomography imaging and targeted radionuclide therapy

Thisgaard¹,

Olesen²,

Dam³

2011

Labelled Comp Radiopharmac

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The SPECT compound 57 Co-DOTATOC has recently been shown to have the highest affinity ever found for somatostatin receptor subtype 2. Moreover, the internalization rate into the tumour cell line AR42J was also the highest found for any somatostatin-based radiopharmaceutical. We here present a method to prepare the positron emission tomography compound 55 Co-DOTATOC as a new promising radiopharmaceutical for positron emission tomography via solid target irradiations of enriched Fe-metal. Also, the new, potent Auger-electron-emitting radioisotope 58mCo and the resulting therapeutic compound 58m Co-DOTATOC as candidate for targeted radionuclide therapy of somatostatin receptor-positive tumours have been prepared with high yield and high radiochemical purity.

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Johan Hygum Dam

Extended adjuvant aromatase inhibition after sequential endocrine therapy (DATA): a randomised, phase 3 trial

Amide Synthesis from Alcohols and Amines Catalyzed by Ruthenium N‐Heterocyclic Carbene Complexes

Implementation of Value Based Breast Cancer Care

Radiosynthesis of ⁵⁵Co‐ and ^58mCo‐labelled DOTATOC for positron emission tomography imaging and targeted radionuclide therapy

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Johan Hygum Dam

Extended adjuvant aromatase inhibition after sequential endocrine therapy (DATA): a randomised, phase 3 trial

Amide Synthesis from Alcohols and Amines Catalyzed by Ruthenium N‐Heterocyclic Carbene Complexes

Implementation of Value Based Breast Cancer Care

Radiosynthesis of 55Co‐ and 58mCo‐labelled DOTATOC for positron emission tomography imaging and targeted radionuclide therapy

Contact Info

Product

Resources

About

Radiosynthesis of ⁵⁵Co‐ and ^58mCo‐labelled DOTATOC for positron emission tomography imaging and targeted radionuclide therapy