Copper-PANI-graphite HB2 composite for eco-friendly efficient degradation of textile dyes: Advancements in wastewater treatment enhanced by solar radiation.

This research aimed to assess the potential of CuPANI@UG composite for sunlight drive photocatalytic dye degradation, targeting specifically Thymol Blue (TB) and Black NT (BNT) dyes and their mixture (DM). The CuPANI@UG composite was successfully synthesized via electropolymerization in acetonitrile/sulfuric acid mixture under atmospheric conditions. Photocatalytic experiments were conducted by exposing aqueous dye solutions to sunlight.

Eco-Friendly Electrosynthesis of Cu-PANI-Pencil Composite: Enhanced Their Current Value, Acid Sensing, Click Chemistry and Turn On-Off Sunlight Photo-Catalytical HO Activation.

In this contribution, we report a straightforwardly and easily one-step synthesis of a small family of composites based in polyaniline grafted on HB2 graphite (PANI@UG) and their copper-doped derivatives (CuPANI@UG). The PANI@UG composites were synthesized through electrochemical polymerization using cyclic voltammetry (CV) in three different acidic media: i) acetic acid (AcOH) at high and low concentration (12 and 1 M, using KCl as electrolytic support); ii) a mixture of AcOH and sulfuric acid (HSO, which have two roles: as electrolytic support and proton source) and iii) a mixture of acetonitrile (NCCH) and HSO, under atmospheric conditions. Once the best conditions were achieved, our next step was focused on obtaining the CuPANI@UG composites using a solution of aniline and CuSO (50 mM) in AcOH:HSO and NCCH:HSO solutions, respectively.