All Stories

  1. A “click-chemistry” approach for the synthesis of porphyrin dyads as sensitizers for dye-sensitized solar cells
  2. Tuning the reorganization energy of electron transfer in supramolecular ensembles – metalloporphyrin, oligophenylenevinylenes, and fullerene – and the impact on electron transfer kinetics
  3. “Scorpion”-shaped mono(carboxy)porphyrin-(BODIPY)2, a novel triazine bridged triad: synthesis, characterization and dye sensitized solar cell (DSSC) applications
  4. A triazine di(carboxy)porphyrin dyad versus a triazine di(carboxy)porphyrin triad for sensitizers in DSSCs
  5. Synergistic “ping-pong” energy transfer for efficient light activation in a chromophore–catalyst dyad
  6. Functionalized porphyrin derivatives for solar energy conversion
  7. Photocatalytic hydrogen production from a noble metal free system based on a water soluble porphyrin derivative and a cobaloxime catalyst
  8. Dye-sensitized solar cells based on triazine-linked porphyrin dyads containing one or two carboxylic acid anchoring groups
  9. The importance of various anchoring groups attached on porphyrins as potential dyes for DSSC applications
  10. A corrole–azafullerene dyad: synthesis, characterization, electronic interactions and photoinduced charge separation
  11. Enhancement of power conversion efficiency of dye-sensitized solar cells by co-sensitization of zinc-porphyrin and thiocyanate-free ruthenium(ii)-terpyridine dyes and graphene modified TiO2 photoanode