Synthesis and Properties of a High-Molecular-Weight Organosoluble Bisphenol A Novolac

## Abstract The preparation and characterization of high‐molecular weight diphenyl oxide‐ and diphenyl sulfide‐novolacs are described. The polymerization of diphenyl oxide with 2 equivalence of formaldehyde proceeded to give the corresponding polymer (**2**) (__M~n~__: 160,000, __M~w~__/__M~n~__: 2

## Abstract Blends of poly(ethylene oxide) (PEO) and novolac‐type phenolic resin were investigated for potential use as a crystallizable switching component for shape‐memory polymer systems with adjustable switching temperature. High‐molecular‐weight PEO and novolac blends with low novolac content

## Abstract Bisphenol A novolacs were synthesized in both melting and solution processes using __p__‐formaldehyde and formalin solution in presence of oxalic acid catalyst, respectively. Hydrogen nuclear magnetic resonance, ^1^H NMR, investigations show a high methylene bridge contents in the novol

## Abstract A novel, addition‐curable novolac resin (ABPF) was synthesized by the reaction of diallyl bisphenol A with formaldehyde using __p__‐toluene sulfonic acid as the catalyst. The synthesis conditions were optimized to obtain soluble polymer of desirable molecular weight distribution which w