The fundamental flaw of the HSAB principle is revealed by a complete speciation analysis of the [PtCl_6−nBr_n]²⁻(n = 0–6) system

Abstract: Bjerrum's model of step-wise ligand exchange is extended to compute a complete speciation diagram for the [PtCl6-nBrn](2-) (n = 0-6) system including all 17 equilibrium constants concerning the Pt(IV) chlorido-bromido exchange reaction network (HERN). In contrast to what the hard soft acid base (HSAB) principle "predicts", the thermodynamic driving force for the replacement of chloride by bromide in an aqueous matrix, for each individual ligand exchange reaction present in the Pt(IV) HERN, is due to the differ… Show more

“…Among the “fast” diffusers in Group IB, the diffusion of Au 3+ into semiconductors has been reported ,. Metal cations such as Ag + , Au + , and Au 3+ , which are all well‐known soft or class cations . According to the hard soft acid base (HSAB) principle, it seems reasonable that diffusion of Ag + and Au 3+ should be equally favored in semiconductors.…”

One‐Pot Synthesis of Crystalline Ag₂S Nanoparticles Embedded inside Amorphous Cu₂S Matrix for High Electrical Conductivity

“…Among the “fast” diffusers in Group IB, the diffusion of Au 3+ into semiconductors has been reported ,. Metal cations such as Ag + , Au + , and Au 3+ , which are all well‐known soft or class cations . According to the hard soft acid base (HSAB) principle, it seems reasonable that diffusion of Ag + and Au 3+ should be equally favored in semiconductors.…”

One‐Pot Synthesis of Crystalline Ag₂S Nanoparticles Embedded inside Amorphous Cu₂S Matrix for High Electrical Conductivity

Fast synthesis of iridium(iii) complexes with sulfur-containing ancillary ligand for high-performance green OLEDs with EQE exceeding 31%