AbstractsChemistry

Stepwise covalent synthesis of large molecules is often time consuming and laborious and thus generally ends in a low yield of the target product. It is also difficult to achieve a large desired product where the controlling force is a non-directional weak interaction. Instead, by utilizing stronger metal-ligand directional coordination bonding approach, one can easily prepare the desired large molecules using appropriate molecular units. Further attractive feature of this approach is the incorporation of functional groups into final structures to make the assemblies functional. It is found that symmetrical polypyridyl and rigid linkers have been used widely in the construction of finite supramolecules of Pd (II) and Pt(II). Flexible linkers are rarely used since they are less predictable in self-assembly and have a tendency to form undesired polymer. However, flexible linkers may generate pseudo rigid assemblies that can distort their shapes to obtain a more thermodynamically stable conformation for host-guest interactions. Similarly, use of non-symmetric or ambidentate linkers is not explored much. These linkers may generate a mixture of several linkage isomeric products and thus difficult to monitor the reaction. Moreover, isolation of these products in pure form is also a challenging task. On the other hand, recent research revealed that porous polyacetylene organic compounds are suitable sensors for the detection of electron deficient nitroaromatics, which are the chemical signatures of many commercial explosives. Possibility of discrete supramolecules as sensors for these explosives is very less studied. The main thrusts of the present investigation are to incorporate flexible and nonsymmetrical linkers in the construction of finite discrete assemblies of Pd/Pt; and to design appropriate π-electron rich supramolecules as sensors for the detection of electron deficient nitroaromatics. Chapter 1 of this thesis gives a brief introduction to the supramolecular chemistry. It also gives a brief introduction to the design principle of metal-ligand coordination driven selfassembly approach towards the generation of large architectures. Chapter 2 reports the synthesis of a series of two-dimensional supramolecular architectures via coordination driven self-assembly of Pt/Pd containing ditopic acceptors and non-symmetrical donor ligands. The use of non-symmetrical donor ligands in coordination driven self-assembly is a challenging task because they may generate a mixture of isomers due to different connectivity of the non-symmetric (ambidentate) linkers. But in all the cases exclusive formation of a single linkage isomer was established. Na-nicotinate was treated with [cis-(dppf)Pd(OTf)2] to yield [(dppf)3Pd3(L3)](CF3SO3)3(H2O)2(MeOH)7(Et2O) as the single linkage isomeric triangle. An analogous treatment using Na-isonicotinate instead of Na-nicotinate yielded a mixture of single isomeric square and triangle with the later one as the major product in solution. Further extension of this study using cis-(tmen)Pd(NO3)2…