Synthesis of an Isotopically Labeled Naphthalene Derivative That Supports a Long-Lived Nuclear Singlet State | Zendy

Joseph T. HillCousins | Zendy; Ionut-Alexandru Pop | Zendy; Giuseppe Pileio | Zendy; Gabriele Stevanato | Zendy; Pär Håkansson | Zendy; Soumya S. Roy | Zendy; Malcolm H. Levitt | Zendy; Lynda J. Brown | Zendy; Richard C. D. Brown | Zendy

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Synthesis of an Isotopically Labeled Naphthalene Derivative That Supports a Long-Lived Nuclear Singlet State

Author(s) -

Joseph T. HillCousins,

Ionut-Alexandru Pop,

Giuseppe Pileio,

Gabriele Stevanato,

Pär Håkansson,

Soumya S. Roy,

Malcolm H. Levitt,

Lynda J. Brown,

Richard C. D. Brown

Publication year - 2015

Publication title -

organic letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.94

H-Index - 239

eISSN - 1523-7060

pISSN - 1523-7052

DOI - 10.1021/acs.orglett.5b00744

Subject(s) - chemistry , naphthalene , singlet state , desymmetrization , derivative (finance) , combinatorial chemistry , computational chemistry , organic chemistry , catalysis , excited state , atomic physics , physics , financial economics , economics , enantioselective synthesis

The synthesis of an octa-alkoxy substituted isotopically labeled naphthalene derivative, shown to have excellent properties in singlet NMR experiments, is described. This highly substituted naphthalene system, which incorporates an adjacent (13)C spin pair, is readily accessed from a commercially available (13)C2-labeled building block via sequential thermal alkynyl- and arylcyclobutenone rearrangements. The synthetic route incorporates a simple desymmetrization approach leading to a small difference in the chemical shifts of the (13)C spin pair, a design constraint crucial for accessing nuclear singlet order.

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