Rare Examples of Amine-Templated Organophosphonate Open-Framework Compounds: Combined Role of Metal and Amine for Structure Building

Abstract: By introduction of 2-methyl-1,5-diaminopentane (DAP) and 1,4-diaminobutane (DAB) as templated ions, three new amine-templated organophosphonate open-framework compounds [H2DAP][Zn 6 (Hhedp) 2 (hedp) 2 ]•4H 2 O, I, [H2DAB]-[Zn 6 (Hhedp) 2 (hedp) 2 ]•4H 2 O, II, and [H2DAB][Zn 3 (hedp) 2 ]•2H 2 O, III, have been synthesized, structurally analyzed, and characterized for the first time. Both compounds I and II have analogous 2-D sheet structure connecting through metal and diphosphonates (1-hydroxyethane-1,1-dipho… Show more

“…Coordination networks based on d 10 transition-metal ions are of great importance and have attracted much attention owing to their potential applications when serving as optical function materials. , Therefore, the solid-state photoluminescence properties of compounds 1 – 3 were investigated at ambient temperature (Figure ), and the observed spectra were compared with the spectral data of pure H 4 –HEDP solution. The free diphosphonate molecule exhibits a fluorescence emission band centered at 359 nm upon being excited with UV light (λ ex = 320 nm). , This emission band for diphosphonic acid corresponds to π–π* transitions. Compounds 1 – 3 display a similar emission behavior, and they can emit blue fluorescence emission bands with maxima at 430 nm for 1 , 424 nm for 2 , and 427 nm for 3 , respectively (λ ex = 370 nm).…”

Switching the Zinc Diphosphonates from 1D Chain to 2D Layer and 3D Framework by the Modulation of a Flexible Organic Amine

“…Coordination networks based on d 10 transition-metal ions are of great importance and have attracted much attention owing to their potential applications when serving as optical function materials. , Therefore, the solid-state photoluminescence properties of compounds 1 – 3 were investigated at ambient temperature (Figure ), and the observed spectra were compared with the spectral data of pure H 4 –HEDP solution. The free diphosphonate molecule exhibits a fluorescence emission band centered at 359 nm upon being excited with UV light (λ ex = 320 nm). , This emission band for diphosphonic acid corresponds to π–π* transitions. Compounds 1 – 3 display a similar emission behavior, and they can emit blue fluorescence emission bands with maxima at 430 nm for 1 , 424 nm for 2 , and 427 nm for 3 , respectively (λ ex = 370 nm).…”

Switching the Zinc Diphosphonates from 1D Chain to 2D Layer and 3D Framework by the Modulation of a Flexible Organic Amine

“…Considering the similarity between inorganic phosphates (or phosphites) and organophosphonates, the organoamines-directed assembly is also applicable to the metal phosphonate. An overview of literature indicated that the early investigated organoamines mainly focus on the small rigid/flexible species, just exampled by heterocyclic amine and aliphatic amine. − By contrast, the long aliphatic amine (the total atoms for the chain larger than eight) − and large heterocyclic amine (the N -heterocycle larger than three) are relatively less investigated. − This is not surprising for several reasons, one of which may be partly due to the fact that such long-chain flexible organic amines are easily decomposed under hydrothermal conditions.…”

Two Cobalt-diphosphonates Templated by Long-Chain Flexible Amines: Synthesis, Structures, Proton Conductivity, and Magnetic Properties

“…Of late, the advancement of transition-metal-based materials such as oxides, nitrides, sulfides, selenides, hydroxides, phosphides, phosphates, and various composite materials are considered as excellent catalysts for boosting electrochemical water splitting performance by replacing precious platinum/iridium catalysts. − The selection of flexible phosphonate groups along with incorporation of variable templated organoamines in hybrid metal phosphonate structures not only lead to a variety of structures but also serve as charge separators with modulated catalytic activity. − Interestingly, the lower dimensional transition metal phosphonate are often exciting for their strange magnetic behaviors and field-induced transitions. − However, among plentiful stimulating properties of hybrid metal phosphonates, the electrocatalytic water splitting reaction remains less explored so far. − With our continuous effort with metal phosphonates, − herein we have isolated two new hybrid one-dimensional transition-metal phosphonate chain structures with templated TETA through a hydrothermal pathway (i.e., [H 2 TETA]­[M­(H 2 hedp) 2 ]·2H 2 O, where M = Co for I , Ni for II ; H 4 hedp = 1-hydroxyethane-1,1-diphosphonic acid; TETA = triethylenetetramine) for the investigation of their electrochemical behaviors toward OER and HER. The present study not only explores the potential of any low cost bifunctional OER/HER catalyst designed by organophosphonate ligands but also exposes a promising avenue to explore stable, efficient, and precious-metal-free lower-dimensional framework structures as electrocatalysts.…”

Charge Separated One-Dimensional Hybrid Cobalt/Nickel Phosphonate Frameworks: A Facile Approach to Design Bifunctional Electrocatalyst for Oxygen Evolution and Hydrogen Evolution Reactions