Donor slab robustness and band filling variations in BDT-TTP-based molecular conductors: beta-(BDT-TTP)(6)[Re6S6Cl8]center dot(CH2Cl-CHCl2)(2) and beta-(BDT-TTP)(6)[Mo6Cl14]center dot(CH2Cl-CHCl2)(2)
A. Deluzet et al., Donor slab robustness and band filling variations in BDT-TTP-based molecular conductors: beta-(BDT-TTP)(6)[Re6S6Cl8]center dot(CH2Cl-CHCl2)(2) and beta-(BDT-TTP)(6)[Mo6Cl14]center dot(CH2Cl-CHCl2)(2), ADVAN MATER, 12(6), 2000, pp. 436
Communication: Two new phases for the metallic salts based on 2,5-bis(1,3-d
ithiol-2-ylidene)-1,3,4,6-tetrathiapentalene have been prepared and shown t
o exhibit metallic conductivity down to low temperature. The organic slab t
opology and band structure are identical to previously determined 2:1 salts
of the same donor with smaller monoanions-only the Fermi surface (see Figu
re) is modified by changing the anion volume and charge.