To explore the role of substituents on ligands on the modification of metal catalysts, a series of Ru-amide/AC catalysts are synthesized with various amide ligands derived from formamide and assessed...
Currently available liquid absorbents
and porous adsorbents
for
capturing NH3 are often unfavorable in terms of possessing
high stability and reusability. Herein, three novel sulfonated phenol–formaldehyde
(SPF) resins with almost non-porosity were prepared through a facile
polymerization of various phenol sulfonates with formaldehyde and
applied to the adsorption of NH3. It is demonstrated that
the SPF–Na resin displayed excellent reversibility and good
stability for efficient NH3 adsorption (12.87 mmol·g–1) and superior ideal adsorption solution theory selectivities
for 3% NH3/97% N2 (5076) and 3% NH3/97% H2 (2619) at 298.2 K and 1.0 bar even in 20 adsorption–desorption
cycles, whereas common PF resin only achieved a very low capacity
of 1.9 mmol·g–1. Column breakthrough results
further confirmed that the SPF–Na resin showed good performance
in selective adsorption of 3% NH3 in the mixture of NH3/N2/H2. Nonporous SPF resins with high
stability, desired capacity, and outstanding reversibility are perceived
as promising solid adsorbents for effectively capturing NH3 in the ammonia industry.
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