{"id":2671,"date":"2022-12-19T09:20:00","date_gmt":"2022-12-19T03:50:00","guid":{"rendered":"https:\/\/chiralpedia.com\/blog\/?p=2671"},"modified":"2024-07-05T10:47:53","modified_gmt":"2024-07-05T05:17:53","slug":"donor-acceptor-pirkle-type-csps","status":"publish","type":"post","link":"https:\/\/chiralpedia.com\/blog\/donor-acceptor-pirkle-type-csps\/","title":{"rendered":"Donor-Acceptor (Pirkle)-type CSPs"},"content":{"rendered":"\n

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Lead<\/strong><\/p>\n\n\n\n

William H Pirkle developed these CSPs and are  based on the ionic or covalent attachment of one enantiomer of an amino acid derivative to aminopropyl silica. Pirkle phases contain \u03c0-electron donor or acceptor rings substituted with H-bonding moieties. Donor\u2013acceptor-type CSPs capitalize on synthetic or semi-synthetic chiral low-molecular-weight chiral selectors capable of recognizing chiral analytes by complementary assembly of nonionic attractive interactions. <\/p>\n\n\n\n

Basic design<\/strong> and types <\/strong><\/p>\n\n\n\n

Generally speaking a chiral phase of the Pirkle type that combines structure-based selectivity with hydrogen bonding, \u03c0-\u03c0 interactions, and dipole moments to increase selectivity. Bonded to high purity silica, fully endcapped. As a result of the covalent connection, it is compatible with all aqueous systems, as well as mobile phases, were employed. With only a brief period of equilibration between the normal phase and reversed phase , this column can be operated in both the two modes .<\/p>\n\n\n\n

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Pirkle’s CSPs falls into three types namely \u03c0-electron acceptor phases, \u03c0-electron acceptor phases and \u03c0-electron acceptor-donor phases. DNPBG<\/strong>, contains N(3,5-dinitrobenzoyl)-phenylglycine\/phenyleucine charge transferring aromatic moieties. This is an acidic CSP capable of separating \u03c0-donor aromatic compounds. Napthylleucine phase <\/strong>is based on N-(1-naphthyl)leucine, covalently bonded to 5 mm silica through an ester linkage. Resolves DNB derivatives of amino acids as free acids when used in RP mode. Whelk-01<\/strong> is the most revolutionary addition to Pirkle-Concept series is \u03c0-electron A\/D phase. This concept is an innovative incorporation of both \u03c0-A\/D characteristics, resulting a phase that can be used for a variety of compound.<\/p>\n\n\n\n

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Mechanism<\/strong><\/p>\n\n\n\n

Pirkle used the following justifications as the foundation for the creation of the Pirkle Chiral Stationary Phase: A chiral molecule must have a minimum of three points of interaction, at least one of which must be stereochemically dependent, in order to have different affinities for enantiomers. Chiral recognition takes place at binding sites with Pirkle CSPs. \u03c0-basic or acidic aromatic rings, acidic sites, basic sites, and steric interaction sites are the different categories of major binding sites. Aromatic rings have the potential to interact negatively. Hydrogen is provided by acidic sites for potential intermolecular hydrogen bonds. Also capable of forming hydrogen bonds are basic sites like electrons. Large groups may also engage in steric interactions.<\/p>\n\n\n\n

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