Synthesis and studies of egyptian bagasse pith phenol formaldehyde cationic exchangers

## Abstract Samples of a cationic sulphonated resin have been prepared by sulphonation of a mixture of phenol with cellulose acetate in the presence of paraformaldehyde as a crosslinking agent. The samples having average swelling percentage of 123, and a cation exchange capacity of 2.6 meq g^−1^ re

Infraredspectroscopic studies on some phenolic resins prepared by condensation of phenol with furfural, xylose, glucose, holocellulose, resistant cellulose, pure soda lignin, and bagasse pith, were carried out. The I R spectrum of soda ligninphenol resin proves the presence of aliphatic methyl, meth

Naturally occurring polyphenol(condensed tannin)-phenol-formaldehyde copolymer matrix based cation exchange resins have been successfully used as a solid catalyst (in H+ ion form) in the inversion of sucrose and hydrolysis of methyl acetate. Apart from the normal advantages of the solid catalysts ov

I n order to investigate the chemical constitution of bagasse pith-phenol polycondensate resin, different resins were prepared by condensation of phenol with compounds that may be produced during the acid hydrolysis of bagasse pith and with different constituents of bagasse pith. The optimum conditi

The diazonium salts of aniline and 4,4Ј-diaminodiphenylmethane coupled with phenol and resorcinol were condensed with formaldehyde in alkaline media to yield polymeric resins. These polymers were found to readily react with metal ions like Cu 2ϩ and UO 2 2ϩ , forming polychelates. The azodyes, resin

Schiff bases of hydroxy benzaldehydes with aliphatic and aromatic 1,2-diamines were resinified in HCHO in alkaline media. These resins were found to form complexes readily with Cu(II), Co(II), and Ni(I1). The materials were characterized by infrared, 'H-NMR, UV-visible (UV-vis) spectral studies, and