01974nam a22003015i 4500999001700000003000900017005001700026008004100043020001800084040004300102082002200145100002800167245010900195264006400304264001000368300005300378336002600431337002800457338002700485504004100512520084200553650002801395650003501423653002601458655002401484942001201508952015201520  c28732d28703EG-ScBUE20200916115658.0200219t20192019ncua   f b    000 0 eng d  a9780359913916  aEG-ScBUEbengerdacEG-ScBUEdEG-ScBUE04a541.2242bBAT2221 aBattin, S. N.,eauthor.10aVanillin- aminoquinoline schiff bases and their Co(II), Ni(II) and Cu(II) complexes /cDr. S. N. Battin. 1aRaleigh, North Carolina, U. S. :bLulu Publication,c[2019] 4cc2019  a275 pages :billustrations (some color) ;c24 cm  atextbtxt2rdacontent  aunmediatedbn2rdamedia  avolumebnc2rdacarrier  aIncludes bibliographical references.  aCoordination chemistry and metal complexes is one of the active fields of research in Chemistry. The scope of this field has now become so broad that the number and the kind of compounds with which it is concerned is large enough for the metal compounds and complexes to gain importance in clinical, pharmacological, medicinal, analytical and industrial areas. Schiff bases are most widely used as chelating agents in coordination chemistry. The synthesis and application of Schiff base and their coordination compounds have been highly considered in inorganic and bioinorganic fields as their structural properties are similar to those of the compounds involved in biological systems. The transition metal complexes of Schiff bases derived from heterocyclic compounds have been the centre of attraction for many workers in recent years. 7aMetal complexes.2BUEsh 7aCoordination compounds.2BUEsh  bENGCHEcSeptember2020  vReading book934232  2ddccBB  00102ddc40708BaccahaMAINbMAINc1STd2020-09-16ePurchaseg850.00l1o541.2242 BATp000049680r2025-07-15 00:00:00s2020-09-23w2020-09-16yBB