In this study, we investigated the tetraalkylammonium salts of the weakly coordinating fluorinated alkoxyaluminates pftb (Al(O(C(CF3)(3))(4)) hfip (Al(OC(H)-(CF3)(2))(4)) and hftb (Al(OC(CH3)(-) (CF3)(2))(4)) in order to obtain information on their undisturbed spectral and structural properties, as well as to study their electrochemical behavior (i.e., conductivities in non-polar solvents and electrochemical windows). Several of the compounds qualify as ionic liquids with melting points as low as 42 degrees C for NBU4hfip. Simple and quantitative metathesis reactions most yielding these materials in high purity were developed. These NR4 salts serve as model compounds for undisturbed anions and their vibrational spectra-together with simulated spectra based on quantum chemical DFT calculations-were used for the clear assignment of the anion bands. Besides, the ion volumes of the anions (V-ion(-)(pftb)=0.736 nm(3), V-ion(hftb) = 0.658 nm(3), V-ion(hfip)=0.577 nm(3)) and their decomposition pathways in the mass spectrometric measurements have been established. The salts are highly soluble in non-polar solvents (up to 1.09 mol L-1 are possible for NBu4hftb in CH2Cl2 and 0.41 mol L-1 for NBu4hfip in CHCl3) and show higher molar conductivities if compared to NBu4PF6. The electrochemical windows of CH2Cl2, CH3CN and 1,2-F2C6H4 using the NBu4 aluminate electrolytes are up to +0.5 V/-0.7 V larger than those using the standard NBu4PF6.