Finding Contents or People

New (NS)2 Schiff base with a flexible spacer Synthesis and structural characterization of its first coordination polymer Cu2(u-I)2(u-(thio)2dapte) n(1)
Synthesis and coordination chemistry of new tetradentate N2S2 dodnor Schiff-base ligand ca2-dapte mononuclear and dinuclear copper(I) complexes Cu(ca2dapte) ClO4 and Cu(PPh3)(X) 2(ca2dapte) (X I and Br)
New coordination polymer based on salpn Schiff base and azide bridging ligands Synthesis and structural characterization of Na CoIII(u-salpn)(u1 1-N3)2 n (H2salpn N N -bis(salicylidene)-1 3-diaminopropane)
Optically active poly(ester-imide) Synthesis and characterization of new optically active poly(ester-imide) thermoplastic elastomers
An efficient and chemoselecttve synthesis of aldehyde 1 1 Diacetates using morpholinium bisulfate as a Bronsted acidic Ionic Liquid under solvent-free conditions
Synthesis and characterization of TiAl/a-Al2O3 nanocomposite by mechanical alloying
Synthesis and characterization of TiAl/a-Al2O3 nanocomposite by mechanical alloying
Spectroscopic quantum chemical DFT/HF study and synthesis of 2.2.1 hept-2-en-2-amino-N-azatricyclo 3.2.1.02 4 octane
Spectroscopic quantum chemical DFT/HF study and synthesis of 2.2.1 hept-2-en-2-amino-N-azatricyclo 3.2.1.02 4 octane
Synthesis and characterization of novel optically active poly (ester-imide-imine)s
Expeditious synthesis of novel aromatic polyamides from 5- 3-phenyl-2-(9 10-dihydro-9 10-ethanoanthracene-11 12-dicarboximido)-propanoylamino isophthalic acid and various diamines using microwave-assisted polycondensation
Ionic liquid catalyzed synthesis of organosoluble wholly aromatic optically active polyamides
Fast Synthesis Using Microwave Induction Heating in Ionic Liquid and Characterization of Optically Active Aromatic Polyamides
Synthesis characterization and single crystal X-ray structures of CoIII((BA)2en)(thiobenzamide)2 PF6 and CoIII(acacen)(thiobenzamide)2 ClO4 and their solvatochromic properties
Synthesis of Titanium Carbide by the Combustion of TiO2-2Mg-C and 3TiO2-4Al-3C Systems in a Tubular Furnace