2019
DOI: 10.1038/s41467-019-09682-0
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Integration of a (–Cu–S–)n plane in a metal–organic framework affords high electrical conductivity

Abstract: Designing highly conducting metal–organic frameworks (MOFs) is currently a subject of great interest for their potential applications in diverse areas encompassing energy storage and generation. Herein, a strategic design in which a metal–sulfur plane is integrated within a MOF to achieve high electrical conductivity, is successfully demonstrated. The MOF {[Cu 2 (6-Hmna)(6-mn)]·NH 4 } n ( 1 , 6-Hmna = 6-mercaptonico… Show more

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Cited by 164 publications
(115 citation statements)
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“…Therefore, it is highly feasible to construct the anticipatory MOFs just by simply selecting suitable metal ions. The {[Cu 2 (6‐Hmna) (6‐mn)]·NH 4 } n (6‐Hmna = 6‐mercaptonicotinic acid, 6‐mn = 6‐mercaptonicotinate) synthesized by the reaction of Cu(NO 3 ) 2 and 6,6′‐dithiodinicotinic acid, is a typical orthogonal crystal 27 . As illustrated in Figure 2D, the elemental copper is connected with three sulfur atoms from two 6‐Hmna ligands and one 6‐mn ligand, respectively, and one nitrogen atom from the other 6‐mn, forming tetrahedral CuS 3 N unit.…”
Section: Structural and Electronic Characteristics Of Conductive Mofsmentioning
confidence: 99%
See 1 more Smart Citation
“…Therefore, it is highly feasible to construct the anticipatory MOFs just by simply selecting suitable metal ions. The {[Cu 2 (6‐Hmna) (6‐mn)]·NH 4 } n (6‐Hmna = 6‐mercaptonicotinic acid, 6‐mn = 6‐mercaptonicotinate) synthesized by the reaction of Cu(NO 3 ) 2 and 6,6′‐dithiodinicotinic acid, is a typical orthogonal crystal 27 . As illustrated in Figure 2D, the elemental copper is connected with three sulfur atoms from two 6‐Hmna ligands and one 6‐mn ligand, respectively, and one nitrogen atom from the other 6‐mn, forming tetrahedral CuS 3 N unit.…”
Section: Structural and Electronic Characteristics Of Conductive Mofsmentioning
confidence: 99%
“…As illustrated in Figure 2D, the elemental copper is connected with three sulfur atoms from two 6‐Hmna ligands and one 6‐mn ligand, respectively, and one nitrogen atom from the other 6‐mn, forming tetrahedral CuS 3 N unit. In particular, the existence of Cu–S bond endows this MOF with unique charge transfer characteristics, resulting in high conductivity 27 . All in all, the conductive MOFs are mostly composed of the 2D layered structure and represent an exciting new class of atomic crystals, in which the existence of functional groups (ie, aromatic ring, hydroxyl group, amino group, thiol group, etc) play an important role in their electronic conductivity and electrochemical properties.…”
Section: Structural and Electronic Characteristics Of Conductive Mofsmentioning
confidence: 99%
“…After installation of C 60 , the NU-901-C 60 shows electrical conductivity higher than that of NU-901 (shown in the Table 2). As per reports, the donor-acceptor interactions between TBAPy 4 -/C 60 contribute to the electrical conductivity of the framework [32,38].…”
Section: Zn 4 O(l) 3 -Based Isoreticular Mofs With Cubic Topology Formentioning
confidence: 54%
“…TTF-TCNQ i.e. tetrathiafulvalenetetracyano quinomethane is one of the MOFs that demonstrate metallic conductivity (shown in the Table 2) through-space (π-π stacking) mechanism [38]. Recently, TTF-based ligand consisting of benzoate spacers is used to develop Zn based MOF reported by Dincă et al These MOFs shows columnar stacks of TTF (3.8 Å) with the charge mobility of a magnitude that resembles some best conductive organic polymers [35,36].…”
Section: Zn 4 O(l) 3 -Based Isoreticular Mofs With Cubic Topology Formentioning
confidence: 99%
“…MOF materials are a class of chemical compounds consisting of metal ions or clusters coordinated to organic ligands to form one-dimensional structure, or two or three-dimensional structures [310] with the capability to form ultrahigh porous materials [311], with up to 90% free volume, and a huge internal surface area extending 6000 m 2 /g [312] Although most of the MOF materials are generally associated with a lack of electrical conductivity [313], a few have been reported as electronic conductors [313,314]. MOF materials have been thoroughly studied for major interests such as heterogeneous catalysis and biomedical applications [315,316].…”
Section: Metal-organic Framework and Mxenesmentioning
confidence: 99%