Cysteine-Assisted Tailoring of Adsorption Properties
and Particle Size of Polymer and Carbon Spheres
- Publication date
- Publisher
Abstract
A series
of cysteine-stabilized phenolic resin-based polymer and carbon spheres
were prepared by the modified Stöber method. Cysteine plays
a very important role in the proposed one-pot synthesis of the aforementioned
spheres; namely, it acts as a particle stabilizer and a source of
heteroatoms (nitrogen and sulfur) that can be introduced into these
spheres. The diameter of these spheres can be tuned in the range of
70–610 nm by adjusting the cysteine amount and reaction temperature.
Since polymer spheres obtained in the presence of cysteine contain
sulfur and nitrogen heteroatoms, they were tested for adsorption of
copper ions. It is shown that adsorption isotherms recorded for copper
ions can be well fitted by Langmuir equation, giving unprecedented
adsorption capacities up to ∼65 mg/g