A Cationic Coordination Polymer and Its Orange II Anion-Exchanged Products: Isolation, Structural Characterization, Photocurrent Responses, and Dielectric Properties

Liu, Dan; Lang, Feifan; Zhou, Xuan; Ren, Zhi‐Gang; Young, David J.; Lang, Jian‐Ping

doi:10.1021/acs.inorgchem.7b02034

Cited by 26 publications

(7 citation statements)

References 81 publications

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“…It can also be seen from the Table that the ability of dye adsorption of MOG2 is better than that of MOG1. There have been many literature reports on dye adsorption every year. − The MOGs have advantages on adsorption efficiency and diversity as well as material costs.…”

Section: Resultsmentioning

confidence: 99%

Metal-Organic Gels of Catechol-Based Ligands with Ni(II) Acetate for Dye Adsorption

et al. 2018

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Metal organic gels (MOGs) are a class of supramolecular complexes, which have attracted widespread interest because of the coupled advantages of inorganic and organic building blocks. A new compound terminated with catechol was synthesized. This new compound can be used to coordinate with Ni to form MOGs. These MOGs show favorable viscoelasticity and wormhole-shaped porous structures, which were confirmed by transmission electron microscope and scanning electronic microscope images. Taking the benefits of porosity into account, the xerogel could serve as an adsorbent to adsorb dye molecules from the aqueous media. The experimental results indicate that xerogels possess good adsorption effect both on anionic and cationic dyes. Exhaustive research has been performed on the adsorption kinetics and isotherms, revealing that the adsorption process accords with the pseudo-second-order model and the Langmuir model.

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Section: Resultsmentioning

confidence: 99%

Metal-Organic Gels of Catechol-Based Ligands with Ni(II) Acetate for Dye Adsorption

et al. 2018

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“…Recently we have found that some one-dimensional (1D) CPs showed excellent adsorption capacities toward organic dyes, and the resultant CP-dye composites displayed better electronic performances. For example, the 1D CP {[Ag( bfps )]NO 3 } n ( bfps = N 1 , N 4 -bis(5-fluoropyridin-3-yl)succinamide) (Scheme ) could absorb Orange II (OII) with a capacity of 662 mg·g –1 ) . The as-prepared CP-OII composite demonstrated enhanced photocurrent responses and improved dielectric properties relative to those of the parent CP.…”

Section: Introductionmentioning

confidence: 96%

“…For example, the 1D CP {[Ag-(bfps)]NO 3 } n (bfps = N 1 ,N 4 -bis(5-fluoropyridin-3-yl)succinamide) (Scheme 1) could absorb Orange II (OII) with a capacity of 662 mg•g −1 ). 48 The as-prepared CP-OII composite demonstrated enhanced photocurrent responses and improved dielectric properties relative to those of the parent CP. The preliminary results encouraged us to expand the 1D CPs into higher dimensional structures which might have diversiform topologies and better thermal and water stabilities.…”

Section: ■ Introductionmentioning

confidence: 97%

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Two 2D Zinc(II) Coordination Polymers and Their Orange IV Composites: Preparation, Structures, and Photocurrent Responses

Zhou

Liú

Lang

et al. 2018

Crystal Growth & Design

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Reactions of Zn(OAc)2·2H2O with N 1,N 4-bis(5-fluoropyridin-3-yl)succinamide (bfps) and 1,2,3-benzenetricarboxylic acid (1,2,3-H3BTC) or 1,3,5-benzenetricarboxylic acid (1,3,5-H3BTC) under hydrothermal conditions produce two Zn(II)-based coordination polymers (CPs), {[Zn3(bfps)(1,2,3-BTC)2(H2O)6]·4H2O} n (1·4H2O) and {[Zn(bfps)(1,3,5-HBTC)]·H2O} n (2·H2O). Both compounds show two-dimensional layer structures derived from interconnecting dinuclear [Zn2(1,2,3-BTC)2(H2O)2] units through the bfps bridges and the [Zn(H2O)4] species (1·4H2O) or interlinking dinuclear [Zn2(1,3,5-HBTC)2] units via pairs of bfps bridges and pairs of 1,3,5-HBTC dianions (2·H2O). They display high absorptive capacities toward Orange IV (OIV) in water, i.e., 718 mg·g–1 (1·4H2O) and 794 mg·g–1 (2·H2O), respectively. The resulting CP-OIV composites with the chemical formulas of 1·2.0OIV (3) and 2·1.1OIV·2.5H2O (4) exhibit enhanced photocurrent responses in relation to those of the two precursors.

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“…[15,16] Many CPs absorb organic dyes and the resulting composites exhibit improved photoelectric responses. [17,18] For example, a one dimensional (1D) CP of Zn(II), 1,2,3-BTA (1,2,3-benzenetricarboxylate) and N,N'-di(3-pyridyl)succinamide showed superior Congo Red (CR) sorption up to 1129 mg/g, and the resulting composite exhibited a remarkably enhanced photocurrent response. [17] Scientists usually aim to maximize the uptake of dye and thereby to maximize photocurrent, but without specifically designing for this parameter.…”

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confidence: 99%

New Silver(I)‐P4 Coordination Polymers Strongly Adsorb Congo Red to Yield Composites with Enhanced Photocurrent Responses

et al. 2021

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Reaction of tetraphosphine (P4) ligand dppbpda with Ag(I) oxylates yielded new coordination polymers (CPs) of formula [(dppbpda)Ag4(Ox)4]n (Ox=Bz (1), Sal (2), LA (3), Bz=benzoate, Sal=salicylate, LA=lactate). The solid‐state structures of 1–3 consist of one dimensional (1D) chains constructed from tetranuclear μ‐η2,η2‐ connected Ag4(Ox)4 cluster cores and dppbpda bridging ligands. Compounds 1–3 absorbed Congo Red in two distinct steps, with maximum uptake quantities of 1438 (1), 1417 (2) and 1656 (3) mg/g, inversely correlating with the size of the anions in the CPs. These CPs had band gaps in the semiconducting region (Eg) 3.05–3.15 eV and all three showed enhanced two‐peak photocurrent responses during the stepwise adsorption of CR, with maximum photocurrent densities of 227 (1), 163 (2) and 386 (3) μA cm−2 for composites with optimized dye coverage.

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A Cationic Coordination Polymer and Its Orange II Anion-Exchanged Products: Isolation, Structural Characterization, Photocurrent Responses, and Dielectric Properties

Cited by 26 publications

References 81 publications

Metal-Organic Gels of Catechol-Based Ligands with Ni(II) Acetate for Dye Adsorption

Metal-Organic Gels of Catechol-Based Ligands with Ni(II) Acetate for Dye Adsorption

Two 2D Zinc(II) Coordination Polymers and Their Orange IV Composites: Preparation, Structures, and Photocurrent Responses

New Silver(I)‐P4 Coordination Polymers Strongly Adsorb Congo Red to Yield Composites with Enhanced Photocurrent Responses

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