Charge Delocalization and Bulk Electronic Conductivity in the Mixed-Valence Metal–Organic Framework Fe(1,2,3-triazolate)₂(BF₄)_x

Abstract: Metal-organic frameworks are of interest for use in a variety of electrochemical and electronic applications, although a detailed understanding of their charge transport behavior, which is of critical importance for enhancing electronic conductivities, remains limited. Herein, we report isolation of the mixed-valence framework materials, Fe(tri)(BF) (tri = 1,2,3-triazolate; x = 0.09, 0.22, and 0.33), obtained from the stoichiometric chemical oxidation of the poorly conductive iron(II) framework Fe(tri), and fi… Show more

“…Chemically, the dopant molecules may engage with the MOF either through outer-sphere electron transfer (i.e. redox reactivity) [22][23][24][25] or through inner-sphere reactivity. The latter involves binding of guest molecules to coordinatively unsaturated metal centers to form charge transport pathways and/or to inject charge carriers.…”

Coordination-induced reversible electrical conductivity variation in the MOF-74 analogue Fe₂(DSBDC)

“…Chemically, the dopant molecules may engage with the MOF either through outer-sphere electron transfer (i.e. redox reactivity) [22][23][24][25] or through inner-sphere reactivity. The latter involves binding of guest molecules to coordinatively unsaturated metal centers to form charge transport pathways and/or to inject charge carriers.…”

Coordination-induced reversible electrical conductivity variation in the MOF-74 analogue Fe₂(DSBDC)

“…Parallel to the above work, Long and co‐workers reported on electrical conductivity tuning of the iron(II) MOF Fe(tri) 2 (tri − =1,2,3‐triazolate), through a post‐synthesis chemical oxidation to achieve a mixed‐valence state . In this case, the oxidation of the framework was obtained by a structural modification and the incorporation of the tetrafluoroborate anion (BF 4 − ) into the framework, yielding the crystalline and porous phases Fe(tri) 2 (BF 4 ) x ( x =0.09, 0.22, 0.33).…”

Electroactive Metalorganic Frameworks

“…[53] Interestingly, Park et al synthesized Fe(tri) 2 (BF 4 ) x (x = 0.09, 0.22, and 0.33), and found that BF 4 À ions entered the frameworks via partially oxidizing the Fe II node to Fe III . [54] The extra BF 4À ions trigger ion transfer in framework as shown in Figure 5. In addition, the electronic conductivity of this CP was elevated to 0.3 S cm À 1 .…”

Coupled Electrical Conduction in Coordination Polymers: From Electrons/Ions to Mixed Charge Carriers