As a joint venture between the chemistry communities of China and the UK, Materials Chemistry Frontiers strives to report the best research from China and rest of the world to international audiences.
Board members of the journal regularly select and feature their favorite MCF articles that represent research the members see as possessing exceptional novelty and a potential impact to the development of the field.
This month, Editorial Board member Zhen Li picked his choice articles from those published in Materials Chemistry Frontiers during June and July 2017.
All these articles are now FREE to read.
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Design and effective synthesis methods for high-performance polymer semiconductors in organic field-effect transistors
Longxian Shi, Yunlong Guo, Wenping Hu and Yunqi Liu
Mater. Chem. Front., 2017, Advance Article
DOI: 10.1039/C7QM00169J, Review Article
First published on 07 Jul 2017
Editor’s comments:
Organic field effect transistors (OFETs), important components of organic electronics, have witnessed lots of breakthrough, partially due to their potential applications in radio frequency identification (RFID) tags, flexible displays, electronic papers, sensor and so forth. Thanks to the advantages of flexibility, light weight, transparency, solution-processability and modifiability, polymer semiconductors are one of the favorite choices for OFETs. In this Review Article, Yunlong Guo, Wenping Hu, and Yunqi Liu and coworkers from Institute of Chemistry, Chinese Academy of Sciences (China) and Tianjing University (China) summarized the progress of the third-generation donor-acceptor (D-A) polymers for OFETs with high performance, especially emphasizing on building block selection, backbone halogenation, side chain engineering and random copolymerization. They pointed out that once the chemical approaches mentioned above are combined with rational device architectures, more high-performance polymer based OFETs are expected.
Molecular conformation and packing: their critical roles in the emission performance of mechanochromic fluorescence materials
Can Wang and Zhen Li
Mater. Chem. Front., 2017, Advance Article
DOI: 10.1039/C7QM00201G, Review Article
First published on 07 Jun 2017
Editor’s comments:
The development of mechanochromic fluorescence (MCF) materials has attracted much attention due to their great potential in data storage, anti-counterfeiting, pressure sensors and display. However, the significantly variety in the origin of this stimuli-responsive systems makes it challenging to establish a general and specific design strategies to create new high-contrast MCF materials. In this Review Article, Zhen Li and co-worker from Wuhan University (China) summarized the mechanisms of different MCF cases from the viewpoint of molecular packing status, intermolecular interactions, and intramolecular conformation in polymorphism MCF systems. The critical roles of molecular packing and conformation in the force-to-luminescence process are discussed. The general thoughts of structure–packing–performance generated from the MCF materials might promote the further optimization of organic material performance in aggregated state.
High rate Li-ion storage properties of MOF-carbonized derivatives coated on MnO nanowires
Zhen-Dong Huang, Zhen Gong, Qi Kang, Yanwu Fang, Xu-Sheng Yang, Ruiqing Liu, Xiujing Lin, Xiaomiao Feng, Yanwen Ma and Dan Wang
Mater. Chem. Front., 2017, 1, 1975-1981
DOI: 10.1039/C7QM00178A, Research Article
First published on 02 Jun 2017
Editor’s comments:
The supply of power is one of the most important issues in modern life. Nowadays, lithium-ion batteries (LIBs) are still the leading power sources for electrical vehicles and still predominate in the battery market for portable electronic devices and green energy distribution. To break the limit of traditional LIBs with graphite as the anode material, many efforts have been attempted. In this Article, Yanwen Ma, Dan Wang and coworkers from Nanjing University of Posts & Telecommunications (China) and Institute of Process Engineering Chinese Academy of Sciences (China) utilized zeolitic imidazolate framework (ZIF) types of MOF strung by MnO2 NWs as precursors, to prepare C/Co-coated MnO nanowires (C/Co-MnO NWs), which could deliver 848.4 and 718 mA h g-1 at 500 and 5000 mA g-1 after 40 charge/discharge cycles, respectively, superior to other reported MOF-derived nanostructured materials.
In situ polymerized hyperbranched polymer reinforced poly(acrylic acid) hydrogels
Nazila Dehbari, Javad Tavakoli, Simranjeet Singh Khatrao and Youhong Tang
Mater. Chem. Front., 2017, 1, 1995-2004
DOI: 10.1039/C7QM00028F, Research Article
First published on 06 Jun 2017
Editor’s comments:
Hydrogels, a special kind of three-dimensional cross-linked, water-swollen and hydrophilic polymers, have been extensively investigated for use in various applications as enviro-sensitive materials. Among various types of hydrogels, polyacrylate polymers such as polyacrylic acid (PAA) have the most versatile structure to enhance their practical utility in everyday life applications such as filtration, water remediation, diapers and hygiene products, cosmetics, wound dressings, medical waste solidification and metal ion removal. However, regardless of many advantages, the poor mechanical property of PAA hydrogels is considered as a marked weakness, and limited their specific applications. In this Article, Youhong Tang and coworkers from Flinders University (Australia) intelligently introduced a hyperbranched polymer into PAA, through in situ polymerization, to toughen PAA hydrogels with 130% improvement in the ultimate tensile strength, without sacrificing the swelling ratio.
Highly efficient thermally activated delayed fluorescence materials with reduced efficiency roll-off and low on-set voltages
Haobin Zhao, Zhiheng Wang, Xinyi Cai, Kunkun Liu, Zuozheng He, Xin Liu, Yong Cao and Shi-Jian Su
Mater. Chem. Front., 2017, 1, 2039-2046
DOI: 10.1039/C7QM00195A, Research Article
First published on 13 Jun 2017
Editor’s comments:
Prompted by both scientific and commercial interests, organic materials with high performance are badly needed to be explored for organic light-emitting diodes (OLEDs). Specially, metal-free thermally activated delayed fluorescence (TADF) materials can achieve 100% use of excitons through reverse intersystem crossing (RISC) because of their low energy gap (DEST) between the lowest singlet excited state (S1) and the triplet excited state (T1). In this Article, Shijian Su, Yong Cao and coworkers from South China University of Technology (China) combined carbazole and two additional carbazole or diphenylamine moieties together with a benzophenone unit, to design two donor–acceptor (D–A) type TADF luminogens of CCDC and CCDD. A maximal EQE of 15.9%, the highest ever value among the reported benzophenone-based blue emitters, was achieved in the blue-emitting devices with CCDC as the emitter. And the green emitting CCDD-based devices demonstrated the maximal EQEs exceed 22% and the on-set voltages of as low as 2.6 V.
Morphology control enables thickness-insensitive efficient nonfullerene polymer solar cells
Xiaoyu Liu, Long Ye, Wenchao Zhao, Shaoqing Zhang, Sunsun Li, Gregory M. Su, Cheng Wang, Harald Ade and Jianhui Hou
Mater. Chem. Front., 2017, 1, 2057-2064
DOI: 10.1039/C7QM00182G, Research Article
First published on 22 Jun 2017
Editor’s comments:
Solution-processed bulk heterojunction (BHJ) polymeric solar cells (PSCs) have attracted extensive attention in the past two decades due to their low cost, light weight, and potential for roll-to-roll production on flexible substrates. Instead of using fullerene acceptors, due to the efforts of scientists, especially the contributions from Xiaowei Zhan’s group (Peking University, China), some PSCs comprising conjugated polymers and non-fullerene acceptors have demonstrated high power-conversion efficiencies (PCE > 12%). So far, one of the major factors hindering industrial production of nonfullerene PSCs is the high sensitivity of the power conversion efficiency (PCE) to thickness variations, which can significantly affect the manufacturing yields and production costs of roll-to-roll processing. When the thickness of the active layer is over 100 nm, PCEs show a significant loss. In this Article, Long Ye, Shaoqing Zhang, Harald Ade and Jianhui Hou from University of Science and Technology Beijing (China), Institute of Chemistry, Chinese Academy of Sciences (China), and North Carolina State University (USA) reported that simply via thermal annealing, highly efficient thickness-insensitive non-fullerene PSCs could fabricated. For example, PBDB-T/IT-M-based nonfullerene PSCs can afford an impressive PCE of up to 9.4% at an active layer thickness of 250 nm, and a high efficiency close to 9%@400 nm, contributing much for the possible commercial roll-to-roll printing technology.
Previous articles recommended by MCF board members are also open for all to access. Read the full collection now!
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