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2. Directional Growth of Conductive Metal–Organic Framework Nanoarrays along [001] on Metal Hydroxides for Aqueous Asymmetric Supercapacitors

Author

Jiadan Lu, Huiyu Duan, Yi Zhang, Guangxun Zhang, Zixia Chen, Yongzhen Song, Rongmei Zhu, and Huan Pang

Subjects
General Materials Science
Abstract

Metal-organic frameworks (MOFs) are promising electrochemical materials that possess large specific surface areas, high porosities, good adjustability, and high activities. However, many conventional MOFs exhibit poor conductivity, which hinders their application in electrochemistry. In recent years, conductive MOFs (cMOFs) have attracted a considerable attention. As an important transition metal hydroxide, Ni(OH)

Published
2022

3. Printable electrode materials for supercapacitors

Author

Xiaowen Guo, Yi-Dan Gao, Ziming Qiu, Huan Pang, Guangxun Zhang, Yizhou Zhang, and Rongmei Zhu

Subjects
Supercapacitor, Electrode material, Materials science, business.industry, Screen printing, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, 3D printing, Nanotechnology, business, Electrochemical energy storage, Inkjet printing, Energy storage
Abstract

The invention of printing technologies has revolutionized the manner in which information is transmitted and reproduced. In the modern era, printing technologies , which are equipped with computerized control and design methods, have become considerably efficient and effective, facilitating A significant breakthrough in the manufacture of high-performance electrochemical energy storage systems. Through careful design and execution, the components of energy storage devices, particularly electrodes, can be formulated into functional inks, enabling the use of divers materials and devices in high-performance energy storage applications. This reviewfocuses on three major printing technologies: inkjet printing, screen printing, and 3D printing, introducing the principles of each printing technology, the design and preparation of various electrode inks, and their applications in supercapacitors. Finally, the challenges and scope for the future development of printing technologies forhigh-performance supercapacitors are presented.

Published
2022

5. When Conductive MOFs Meet MnO2: High Electrochemical Energy Storage Performance in an Aqueous Asymmetric Supercapacitor

Author

Huiyu Duan, Rongmei Zhu, Jiadan Lu, Yi Zhang, Zhimin Zhao, Wenhui Hu, Shasha Li, Huan Pang, and Mengfei Zhang

Subjects
Supercapacitor, Materials science, Graphene, law, Electrode, General Materials Science, Nanotechnology, Conductivity, Electrochemistry, Electrical conductor, Capacitance, Energy storage, law.invention
Abstract

Metal organic frameworks (MOFs) have been widely researched and applied in many fields. However, the poor electrical conductivity of many traditional MOFs greatly limits their application in electrochemistry, especially in energy storage. Benefited from the full charge delocalization in the atomical plane, conductive MOFs (c-MOFs) exhibit good electrochemical performance. Besides, unlike graphene, c-MOFs are provided with 1D cylindrical channels, which can facilitate the ion transport and enable high ion conductivity. Transition-metal oxides (TMOs) are promising materials with good electrochemical energy storage performance due to their excellent oxidation-reduction activity. When composited with TMOs, the c-MOFs can significantly improve the capacitance and rate performance. In this work, for the first time, we designed serial MnO2@Ni-HHTP (HHTP = 2,3,6,7,10,11-hexahydroxytriphenylene) nanoarrays with different lengths and explored how the lengths influence the electrochemical energy storage performance. By taking advantage of the high redox activity of MnO2 and the excellent electron and ion conductivity in Ni-HHTP, when assembled as the positive electrode material in an aqueous asymmetric supercapacitor, the device displays high energy density, outstanding rate performance, and superior cycle stability. We believe that the results of this work would provide a good prospect for developing other c-MOF composites as a potential class of electrode materials in energy storage and conversion.

Published
2021

6. Thermo-induced nanocomposites with improved catalytic efficiency for oxygen evolution

Author

Huan Pang, Jiawei Ding, Yi Zhang, and Rongmei Zhu

Subjects
Nanocomposite, Materials science, Oxygen evolution, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrocatalyst, 01 natural sciences, 0104 chemical sciences, law.invention, Chemical engineering, law, General Materials Science, Calcination, Metal-organic framework, Catalytic efficiency, 0210 nano-technology
Abstract

电解水能够为我们提供清洁可持续的能源, 这对生态环境系统大有裨益. 因此, 在电解水体系中, 开发新型有效的析氧催化剂迫在眉睫. 本文首先通过自下而上的方法合成Au@ZIF-67, 再对其进行控温处理得到纳米复合物Au@ZIF-67-500. 通过扫描电子显微镜、透射电子显微镜、X射线光电子能谱和紫外光谱等一系列测试手段揭示了材料的纳米结构形貌及其表面电子分布. 在 1.0 mol L−1 KOH电解液中, 利用三电极体系进行了电催化性能的测试. 结果显示, 该纳米复合物在催化析氧反应过程中呈现出良好的催化活性和较好的稳定性. 这一结果可以归功于三方面的协同作用: 金纳米粒子的包覆、多孔结构和有效的热控制. 这种通过简单方法制备的析氧催化剂对能量转换领域具有一定的借鉴意义.

Published
2021

7. Recent progress of dimensionally designed electrode nanomaterials in aqueous electrochemical energy storage

Author

Huan Pang, Rongmei Zhu, Huiyu Duan, and Zhimin Zhao

Subjects
Supercapacitor, Electrode material, Aqueous solution, Materials science, Renewable Energy, Sustainability and the Environment, Nanotechnology, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Energy storage, 0104 chemical sciences, Nanomaterials, Electrode, General Materials Science, 0210 nano-technology, Cyclic stability, Electrochemical energy storage
Abstract

Uneven energy distribution in space–time has led to an increase in the demand for energy storage devices. In recent years, aqueous energy storage systems have attracted considerable attention because of their low manufacturing costs and superior safety. For next-generation energy storage systems, the cyclic stability of the electrode material and exceptional energy storage performance are necessary. This review briefly summarizes the performance of aqueous electrochemical energy storage devices based on nanodimensions, including aqueous sodium-ion batteries, aqueous aluminum-ion batteries, aqueous zinc-ion batteries, aqueous supercapacitors, and other aqueous electric energy storage systems. Furthermore, to reveal the mechanism of the energy storage performance among various electrode materials with varying dimensions, we highlight the recent significant progress of novel electrode materials based on their rational design, controlled synthesis, and corresponding energy storage performance.

Published
2021

8. Ultrathin cobalt pyrophosphate nanosheets with different thicknesses for Zn-air batteries

Author

Qiang Xu, Huan Pang, Bing Li, Rongmei Zhu, and Huaiguo Xue

Subjects
Materials science, Oxygen evolution, chemistry.chemical_element, 02 engineering and technology, Zinc, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Pyrophosphate, Hydrothermal circulation, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Catalysis, Biomaterials, Metal, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Chemical engineering, visual_art, visual_art.visual_art_medium, 0210 nano-technology, Cobalt
Abstract

Two dimensional (2D) ultrathin nonprecious metal based catalysts show excellent electrocatalytic activities, due to the larger surface areas, more catalytic sites and more interconnected electron-transfer access than their bulk counterparts. Here, we synthesized cobalt pyrophosphate (Co2P2O7) nanosheets with different thickness by a simple and efficient one-step hydrothermal process. The catalytic performance of the obtained Co2P2O7 was investigated via diverse electrochemical measurement. Due to the unique 2D structure and the flexible coordination of pyrophosphate group, the as-prepared Co2P2O7 catalyst had excellent electrocatalytic performance and good stability, which could rank among the most active nonprecious metal catalysts for oxygen evolution reaction and oxygen reduction reaction. In addition, the ultrathin Co2P2O7 nanosheets exhibited good performance as the air cathode catalyst for zinc air batteries.

Published
2020

9. CeO2 quantum dots doped Ni-Co hydroxide nanosheets for ultrahigh energy density asymmetric supercapacitors

Author

Suli Liu, Huan Pang, Xinyi Wu, Changyun Chen, Tong Wang, Rongmei Zhu, Jing Zhuang, Ziyun Su, and Huiyu Duan

Subjects
Supercapacitor, Lanthanide, Aqueous solution, Materials science, Doping, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Capacitance, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Quantum dot, Hydroxide, 0210 nano-technology, Nanosheet
Abstract

By integrating the merits of lanthanide elements and quantum dots, we firstly design CeO2 quantum dots doped Ni-Co hydroxide nanosheet via a controllable synthetic strategy, which exhibits a large specific capacitance (1370.7 F/g at 1.0 A/g) and a good cyclic stability (90.6% retention after 4000 cycles). Moreover, we assemble an aqueous asymmetric supercapacitor with the obtained material, which has an extremely high energy density (108.9 Wh/kg at 378 W/kg) and outstanding cycle stability (retaining 88.1% capacitance at 2.0 A/g after 4000 cycles).

Published
2020

10. Interpenetrated structures appeared in supramolecular cages, MOFs, COFs

Author

Huan Pang, Ling Jin, Rongmei Zhu, and Jiawei Ding

Subjects
Inorganic Chemistry, 010405 organic chemistry, Chemistry, Materials Chemistry, Supramolecular chemistry, Nanotechnology, Physical and Theoretical Chemistry, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences
Abstract

The construction of interpenetrated structures was originally achieved via the self-assembly process by an accidental discovery. Nevertheless, this type of interpenetrated structure exhibits fascinating properties and outstanding applications, such as catalysis, molecule recognition and separation, selective gas adsorption. Recent years, several groups focus on the development of such interesting structures and explore their potential applications in different areas. Herein, interpenetrated structures including interpenetrated supramolecular cages, MOFs and COFs are discussed in this manuscript. Concrete examples in recent years are reviewed to illustrate their synthetic strategies, structural features and potential applications. We would like to provide an overview on the developments in the area of interpenetrated topologies and hope this review can shed some light on the further investigation of interpenetrated architectures and provide some insight on their applications.

Published
2019

11. Core-shell materials for advanced batteries

Author

Huan Pang, Yuqing Luo, Qing Li, Xiaotian Guo, Rongmei Zhu, and Wenjie Lu

Subjects
Materials science, General Chemical Engineering, Nanostructured materials, chemistry.chemical_element, Nanotechnology, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, Anode, Core shell, chemistry, Environmental Chemistry, 0210 nano-technology, Carbon
Abstract

Nowadays, materials with a core-shell structure have been widely explored for applications in advanced batteries owing to their superb properties. Core-shell structures based on the electrode type, including anodes and cathodes, and the material compositions of the cores and shells have been summarized. In this review, we focus on core-shell materials for applications in advanced batteries such as LIBs, LSBs and SIBs. Firstly, a novel concept of aggregates of spherical core-shell architectures and their aggregates, linear core-shell architectures and their aggregates, sheet-like core-shell architectures and their aggregates and special core-shell architectures and their aggregates are involved. Secondly, the main material compositions of carbon/Si-based, carbon/metal-based, metal-based materials and organic-based composites are introduced along with the synthesis and electrochemical performances of core-shell nanostructured materials. Finally, the emerging challenges and prospects of core-shell materials are briefly discussed.

Published
2019

12. Design and synthesis of covalent organic frameworks towards energy and environment fields

Author

Shuai Cao, Bing Li, Rongmei Zhu, and Huan Pang

Subjects
Materials science, business.industry, General Chemical Engineering, Nanotechnology, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Solar energy, 01 natural sciences, Industrial and Manufacturing Engineering, Energy storage, 0104 chemical sciences, Catalysis, Hydrogen storage, Covalent bond, Environmental Chemistry, 0210 nano-technology, Porous medium, Porosity, business, Energy (signal processing)
Abstract

Covalent organic frameworks (COFs) are burgeoning crystalline porous materials that are constituted with organic building units and covalent bonds. The pre-designable porous structures make a platform for solving energy and environmental problems. This article systematically presents the basic design principle of COFs and introduces the applications in energy and environment fields, for instance, gas storage, energy storage, photoconduction, and catalysis. We also discussed the gas storage conditions and the strategies to improve the hydrogen storage. Finally, we proposed a scheme for improving the storage capacity of lithium-ion (Li-ion) batteries with COFs and the use of COFs to remove Hg in water, and as a catalyst to make rational use of solar energy.

Published
2019

13. The synthesis and electrochemical applications of core–shell MOFs and their derivatives

Author

Zhimin Zhao, Rongmei Zhu, Huan Pang, and Jiawei Ding

Subjects
Structural material, Materials science, Renewable Energy, Sustainability and the Environment, Nanotechnology, 02 engineering and technology, General Chemistry, Nanoreactor, 021001 nanoscience & nanotechnology, Electrochemistry, Core shell, Water splitting, General Materials Science, 0210 nano-technology, Porosity
Abstract

Core–shell MOF structural materials have become research hotspots in the field of chemical materials in recent decades. This rapidly developing research field has been intensively studied and has attracted great attention. In this review, recent strategies in the synthesis of core–shell MOF structures and their derivatives are summarized, including the in situ method, self-template method, self-assembly method and one-pot method. Regarding the properties of these materials, the core–shell MOF structures and their derivatives possess the features of high specific surface area and ultrahigh porosity; therefore, MOF composite materials show amazing potential in practical applications. In this review, we particularly focus on electrochemical applications such as water splitting reactions, energy storage devices, nanoreactors and sensing equipment. Finally, further developments of core–shell MOF structural composites, future challenges, and promising prospects are proposed.

Published
2019

14. Concentration as a trigger to improve electrocatalytic activity of a Prussian blue analogue in glucose oxidation

Author

Rongmei Zhu, Jiawei Ding, Huan Pang, Zhimin Zhao, and Huijie Zhou

Subjects
Detection limit, Prussian blue, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Ascorbic acid, 01 natural sciences, 0104 chemical sciences, Nanomaterials, chemistry.chemical_compound, chemistry, Electrode, Uric acid, General Materials Science, 0210 nano-technology, Biological sciences, Nuclear chemistry
Abstract

The Prussian blue analogue (PBA) NiHCF was assembled by carrying out a simple chemical precipitation. Nanocubes of different sizes were prepared by adjusting the concentration during the synthesis process, and a new type of non-enzymatic glucose sensor was constructed. The sensor displayed a good linear response to glucose in the range of 0.5 μM to 2165.5 μM, a detection limit of 0.8621 μM, and a lack of interference by uric acid, ascorbic acid, and other coexisting substances. It provides a new platform for the application of three-dimensional PBA nanomaterial electrodes in medical fields and biological sciences.

Published
2019

15. A Hierarchically Porous ZIF@LDH Core-Shell Structure for High-Performance Supercapacitors

Author

Huan Pang, Huiyu Duan, Zhimin Zhao, and Rongmei Zhu

Subjects
Supercapacitor, Nanocomposite, 010405 organic chemistry, Organic Chemistry, General Chemistry, 010402 general chemistry, Electrochemistry, 01 natural sciences, Biochemistry, Capacitance, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Etching (microfabrication), Hydroxide, Metal-organic framework, Porosity
Abstract

Designing nanocomposites with good electrochemical properties is one of the challenges in constructing supercapacitors. Adjustable metal-organic frameworks (MOFs) have potential research value in improving charge storage and transfer due to their multi-porosity. Moreover, MOFs can serve as a precursor to various derivatives. Herein, a series of core-shell structures with macro-microporous ZIF-67 (M-ZIF-67) as the core and layered double hydroxide (LDH) as the shell were synthesized based on polystyrene spheres (PSs) template via a simple ion etching method. As a result, the sample of M-ZIF-67@LDH4 shows a specific capacitance of 597.6 F g-1 at 0.5 A g-1 and a high rate retention of 92% at 3 A g-1 .

Published
2021

16. Quasi-ZIF-67 for Boosted Oxygen Evolution Reaction Catalytic Activity via a Low Temperature Calcination

Author

Jiawei Ding, Jinpeng Yang, Qiang Xu, Huan Pang, Pierre Braunstein, Rongmei Zhu, Daliang Zhang, Institut de Chimie de Strasbourg, Centre National de la Recherche Scientifique (CNRS)-Université Louis Pasteur - Strasbourg I-Institut de Chimie du CNRS (INC), and Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)

Subjects
Materials science, Oxygen evolution, 02 engineering and technology, [CHIM.CATA]Chemical Sciences/Catalysis, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrocatalyst, 01 natural sciences, 0104 chemical sciences, Catalysis, law.invention, Metal, Electron transfer, Chemical engineering, law, visual_art, visual_art.visual_art_medium, General Materials Science, Calcination, 0210 nano-technology, Porosity, Electrochemical energy storage
Abstract

Exposing catalytically active metal sites in metal-organic frameworks with maintained porosity could accelerate electron transfer, leading to improved performances in electrochemical energy storage and conversion. Here, we report a series of quasi-ZIF-67 obtained from low temperature calcination of ZIF-67 for electrocatalytic oxygen evolution reaction (OER) and reveal the nanostructural structure via the spherical aberration-corrected transmission electron microscopy. The quasi-ZIF-67-350 not only possesses a large Brunauer-Emmett-Teller surface area of 2038.2 m

Published
2020

18. Recent advances in the development of electronically and ionically conductive metal-organic frameworks

Author

Ruixin Zhang, Ling Jin, Huan Pang, Guangxun Zhang, Rongmei Zhu, and Yang Bai

Subjects
010405 organic chemistry, Chemistry, Nanotechnology, Conductivity, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Inorganic Chemistry, Materials Chemistry, Ionic conductivity, Metal-organic framework, Physical and Theoretical Chemistry, Electronic conductivity, Electrical conductor
Abstract

As porous materials, metal–organic frameworks (MOFs) have drawn increased attention and are widely applied in various fields such as catalysis, gas/energy storage, chemical sensing, and drug delivery. However, the low conductivity of most MOFs greatly hinders their development. Therefore, the conductive properties of MOFs need to be strategically modulated to achieve optimal performance and realize broad and practical applications. Although most MOFs possess poor conductivity, several sorts of materials in this class exhibit outstanding conductivity and high charge mobility. In this review, the multifarious strategies and recent progress used to improve the electronic and ionic conductivities of MOFs, including the conductive mechanisms and conductivity measurements are summarized and highlighted. In addition, the important breakthroughs, challenges and future trends of MOF-based conductors are also discussed.

Published
2021

19. Catalysis within coordination cages

Author

Yadan Xue, Xinxin Hang, Bing Li, Qiang Xu, Rongmei Zhu, Jiawei Ding, and Huan Pang

Subjects
Inorganic Chemistry, Molecular recognition, 010405 organic chemistry, Chemistry, Materials Chemistry, Nanotechnology, Physical and Theoretical Chemistry, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Catalysis
Abstract

Coordination cages with well-defined cavities have attracted sustained attention for their applications in many fields, including host-guest chemistry, molecular recognition, and catalysis, due to their structural aesthetics and unique properties. This review covers the achievements in the catalytic application of these materials in specific chemical transformations. The developments in the utilizations of the coordination cages themselves as catalysts and their abilities to encapsulate catalytic cofactors for catalysis are summarized. In addition, the current challenges and great application potential of coordination cages in catalysis are discussed.

Published
2021

20. Evaluating the electronic properties of ditopic and hetero-ditopic ligands derived from benzimidazole and pyrazole by 13C NMR spectroscopy

Author

Qiaoqiao Teng, Qi Meng, Rongmei Zhu, Yuchen Lu, and Han Vinh Huynh

Subjects
Benzimidazole, 010405 organic chemistry, Ligand, Organic Chemistry, Pyrazole, 010402 general chemistry, 01 natural sciences, Biochemistry, Combinatorial chemistry, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, 13c nmr spectroscopy, chemistry, Materials Chemistry, Electronic communication, Physical and Theoretical Chemistry, Linker, Electronic properties
Abstract

Huynh’s electronic parameter (HEP) was applied to distinguish the electronic properties of benzimidazole and pyrazole donors in N^N ditopic and N^N′ hetero-ditopic, dinucleating ligands by 13C NMR spectroscopy of their dipalladium complexes bearing terminal iPr2-bimy reporter ligands. The 13Ccarbene NMR resonances of the iPr2-bimy ligand (HEPs) indicate stronger donation of the symmetrical dibenzimidazole compared to that of the dipyrazole with a ΔHEP value of 1.54 ppm. Based on this benchmark value, the effect of spacer groups on the electron donation of the mixed benzimidazole-pyrazole ligands was investigated for the first time. The donicity gap between the benzimidazole and pyrazole donors increases with alkylene spacers, but shrinks with the 1,4-phenylene linker, suggesting electronic communication between the two different heterocycles via π-electron conjugation. Furthermore, these complex probes could also be used to catalyze the direct arylation of pentafluorobenzene, which showed that the unsymmetrically bridged, dinuclear complexes with alkylene linkers are more reactive.

Published
2020

21. Correction: Concentration as a trigger to improve electrocatalytic activity of a Prussian blue analogue in glucose oxidation

Author

Zhimin Zhao, Jiawei Ding, Huijie Zhou, Rongmei Zhu, and Huan Pang

Subjects
General Materials Science, General Chemistry, Condensed Matter Physics
Abstract

Correction for ‘Concentration as a trigger to improve electrocatalytic activity of a Prussian blue analogue in glucose oxidation’ by Zhimin Zhao et al., CrystEngComm, 2019, 21, 5455–5460, DOI: 10.1039/C9CE00947G.

Published
2020

22. Catenation and Aggregation of Multi-Cavity Coordination Cages

Author

Julian J. Holstein, Birger Dittrich, Guido H. Clever, Irene Regeni, Miriam Simon, Sylvain Prévost, Michael Gradzielski, and Rongmei Zhu

Subjects
010405 organic chemistry, Chemistry, Ligand, Dimer, Catenane, Supramolecular chemistry, General Chemistry, Nuclear magnetic resonance spectroscopy, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Crystallography, Catenation, chemistry.chemical_compound, Self-assembly, Solvophobic
Abstract

A series of metal-mediated cages, having multiple cavities, was synthesized from PdII cations and tris- or tetrakis-monodentate bridging ligands and characterized by NMR spectroscopy, mass spectrometry, and X-ray methods. The peanut-shaped [Pd3 L1 4 ] cage deriving from the tris-monodentate ligand L1 could be quantitatively converted into its interpenetrated [5Cl@Pd6 L1 8 ] dimer featuring a linear {[Pd-Cl-]5 Pd} stack as an unprecedented structural motif upon addition of chloride anions. Small-angle neutron scattering (SANS) experiments showed that the cigar-shaped assembly with a length of 3.7 nm aggregates into mono-layered discs of 14 nm diameter via solvophobic interactions between the hexyl sidechains. The hepta-cationic [5Cl@Pd6 L1 8 ] cage was found to interact with polyanionic oligonucleotide double-strands under dissolution of the aggregates in water, rendering the compound class interesting for applications based on non-covalent DNA binding.

Published
2018

23. Donor-Site-Directed Rational Assembly of Heteroleptic cis-[Pd

Author

Rongmei, Zhu, Witold M, Bloch, Julian J, Holstein, Soham, Mandal, Lars V, Schäfer, and Guido H, Clever

Subjects
Cage Compounds | Hot Paper, Full Paper, heteroleptic assembly, coordination cages, Full Papers, steric control, self-sorting, supramolecular chemistry
Abstract

A donor‐site engineering approach facilitates the formation of heteroleptic [Pd2 L 2 L′2]4+ cage structures through a favored cis‐′in2/out2′ spatial configuration of the methyl groups of 5‐ and 3‐substituted bis‐monodentate picolyl ligands with flat acridone and bent phenothiazine backbones. The heteroleptic cages were confirmed by ESI‐MS and 2D NMR experiments as well as DFT calculations, which pointed toward a cis‐configuration being energetically favored. This was further supported by the synthesis and X‐ray structure of a previously unreported cis‐[Pd(2‐picoline)4]2+ complex. The formation of homoleptic structures, however, was met with considerable steric hindrance at the PdII centers, as observed by the formation of [Pd2 L 3(solvent)2]4+ and [Pd2 L 2(solvent)4]4+ species when only one type of acridone‐based ligand was offered. In contrast, bent phenothiazine ligands with outside‐pointing methyl groups showed the ability to form interpenetrated double‐cages, as revealed by X‐ray crystallography. The general route presented herein enables the assembly of uniform cis‐[Pd2 L 2 L′2]4+ coordination cages, thus furthering the possibility to increase structural and functional complexity in supramolecular systems.

Published
2018

24. Stepwise Halide-Triggered Double and Triple Catenation of Self-Assembled Coordination Cages

Author

Birger Dittrich, Jens Lübben, Guido H. Clever, and Rongmei Zhu

Subjects
Molecular Structure, Hydrocarbons, Halogenated, 010405 organic chemistry, Carbazole, Stereochemistry, Supramolecular chemistry, Halide, General Chemistry, Ligands, 010402 general chemistry, 01 natural sciences, Hydrocarbons, Catalysis, 3. Good health, 0104 chemical sciences, chemistry.chemical_compound, Crystallography, Catenation, chemistry, Coordination cage, Pyridine, Organometallic Compounds, Molecule, Palladium, Group 2 organometallic chemistry
Abstract

A simple self-assembled [Pd2 L4 ] coordination cage consisting of four carbazole-based ligands was found to dimerize into the interpenetrated double cage [3 X@Pd4 L8 ] upon the addition of 1.5 equivalents of halide anions (X=Cl(-) , Br(-) ). The halide anions serve as templates, as they are sandwiched by four Pd(II) cations and occupy the three pockets of the entangled cage structure. The subsequent addition of larger amounts of the same halide triggers another structural conversion, now yielding a triply catenated link structure in which each Pd(II) node is trans-coordinated by two pyridine donors and two halide ligands. This simple system demonstrates how molecular complexity can increase upon a gradual change of the relative concentrations of reaction partners that are able to serve different structural roles.

Published
2014

25. Stufenweise halogenidgesteuerte Doppel- und Dreifach-Catenierung von selbstorganisierten Koordinationskäfigen

Author

Guido H. Clever, Rongmei Zhu, Birger Dittrich, and Jens Lübben

Subjects
General Medicine
Abstract

Ein einfacher selbstorganisierter [Pd2L4]-Koordinationskafig bestehend aus vier Carbazol-basierten Liganden dimerisiert nach Zugabe von 1.5 Aquivalenten eines Halogenidions (X=Cl−, Br−) zu einem verflochtenen Doppelkafig [3 X@Pd4L8]. Die Halogenidionen agieren als Template, eingelagert in den drei Taschen der verschlungenen Kafigstruktur und umgeben von vier PdII Kationen. Zugabe hoherer Mengen desselben Halogenidions bewirkt eine weitere strukturelle Umwandlung, die in einer dreifach verschlungenen Verbindung resultiert. Letztere enthalt trans-koordinierte PdII-Zentren, die von zwei Pyridin-Donor- und zwei Halogenidliganden umgeben sind. Dieses einfache System zeigt eindrucksvoll, wie molekulare Komplexitat aus der graduellen Anderung der relativen Konzentrationen einer geringen Zahl an Reaktionspartnern erwachsen kann, insbesondere, wenn diese unterschiedliche strukturelle Rollen einnehmen konnen.

Published
2014

26. Applications of Metal–Organic‐Framework‐Derived Carbon Materials

Author

Yan Li, Xiaxia Li, Rongmei Zhu, Wenping Yang, and Huan Pang

Subjects
Supercapacitor, chemistry.chemical_classification, Materials science, Sulfide, Mechanical Engineering, Oxygen evolution, Oxide, chemistry.chemical_element, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Mechanics of Materials, General Materials Science, Water treatment, Metal-organic framework, 0210 nano-technology, Porosity, Carbon
Abstract

Carbon materials derived from metal-organic frameworks (MOFs) have attracted much attention in the field of scientific research in recent years because of their advantages of excellent electron conductivity, high porosity, and diverse applications. Tremendous efforts are devoted to improving their chemical and physical properties, including optimizing the morphology and structure of the carbon materials, compositing them with other materials, and so on. Here, many kinds of carbon materials derived from metal-organic frameworks are introduced with a particular focus on their promising applications in batteries (lithium-ion batteries, lithium-sulfur batteries, and sodium-ion batteries), supercapacitors (metal oxide/carbon and metal sulfide/carbon), electrocatalytic reactions (oxygen reduction reaction, oxygen evolution reaction, and hydrogen evolution reaction), water treatment (MOF-derived carbon and other techniques), and other possible fields. To close, some existing problem and corresponding possible solutions are proposed based on academic knowledge from the reported literature, along with a great deal of experimental experience.

Published
2018

27. π‐Conjugated Molecule Boosts Metal–Organic Frameworks as Efficient Oxygen Evolution Reaction Catalysts

Author

Jinpeng Yang, Huan Pang, Yuxia Xu, Rongmei Zhu, Jiawei Ding, and Qiang Xu

Subjects
Materials science, Electrolysis of water, Oxygen evolution, 02 engineering and technology, General Chemistry, Microporous material, Overpotential, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, Electrocatalyst, 01 natural sciences, 0104 chemical sciences, Biomaterials, Electron transfer, Chemical engineering, General Materials Science, Metal-organic framework, 0210 nano-technology, Biotechnology
Abstract

To improve the efficiency of water electrolysis, developing efficient oxygen evolution reaction (OER) electrocatalysis is extremely important due to its four-electron transfer dynamics. In this work, a π-conjugated molecule (2,3,6,7,10,11-hexahydroxytriphenylene, HHTP), which can accelerate the electron transfer, is coated directly on pristine ZIF-67, resulting in a composite named HHTP@ZIF-67, via a simple one-step solvothermal method. The obtained HHTP@ZIF-67 possesses a Brunauer-Emmett-Teller surface area of 2013.9 m2 g-1 and displays microporous behavior, which can provide enough active sites for OER. The double-layer capacitance of HHTP@ZIF-67 is also enhanced, corresponding to an enlarged electrochemical active surface area. HHTP@ZIF-67 presents a quite low overpotential of 238 mV at 10 mA cm-2 in 1.0 m KOH. This material synthesized via the simple coating strategy is promising in the application of energy conversion devices.

Published
2018

30. Hollow Structural Transition Metal Oxide for Advanced Supercapacitors

Author

Jinying Shao, Jilei Wei, Huaiguo Xue, Huan Pang, Xinran Li, and Rongmei Zhu

Subjects
Supercapacitor, Materials science, Mechanical Engineering, Oxide, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Metal, chemistry.chemical_compound, chemistry, Mechanics of Materials, visual_art, visual_art.visual_art_medium, Structural transition, 0210 nano-technology
Published
2018

31. Transition Metal Sulfides Based on Graphene for Electrochemical Energy Storage

Author

Huan Pang, Shasha Zheng, Huaiguo Xue, Rongmei Zhu, Li Zhang, Pengbiao Geng, Hao Tang, and Shuai Cao

Subjects
Supercapacitor, Materials science, Renewable Energy, Sustainability and the Environment, Graphene, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Transition metal, law, General Materials Science, 0210 nano-technology, Electrochemical energy storage
Published
2018

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