Long-Lived States of Methylene Protons in Achiral Molecules
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It is shown that long-lived states (LLS) involving pairs of methylene protons in nuclear magnetic resonance (NMR) can be readily excited in common molecules that contain two or more neighboring CH$_2$ groups. Accessing such LLS does not require any isotopic enrichment, nor does it require any stereogenic centers to lift the chemical equivalence of CH$_2$ protons. The excitation of LLS is achieved by polychromatic spinlock-induced crossing (poly-SLIC). In a variety of metabolites, neurotransmitters, vitamins, amino acids, and other molecules, LLS were created for the first time. One can excite LLS in several different molecules simultaneously. The lifetimes T$_{LLS}$ are typically 3 to 6 times longer than T$_1$.
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