Molecular design strategies for high‐performance organic electrochemical transistors

The side chain engineering of the photoactive materials is one of the most commonly used molecular design strategies for developing high performance organic solar cells (OSCs). Herein, two alkyl (or...

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Molecular Design Strategies toward Improvement of Charge Injection and Ionic Conduction in Organic Mixed Ionic–Electronic Conductors for Organic Electrochemical Transistors

Chemical Reviews ◽

10.1021/acs.chemrev.1c00266 ◽

2021 ◽

Author(s):

Nadzeya A. Kukhta ◽

Adam Marks ◽

Christine K. Luscombe

Keyword(s):

Ionic Conduction ◽

Molecular Design ◽

Charge Injection ◽

Design Strategies ◽

Mixed Ionic Electronic Conductors ◽

Electronic Conductors ◽

Organic Electrochemical Transistors

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The Molecular Design of High-Performance Carbon Materials

10.21236/ada488341 ◽

2008 ◽

Author(s):

Mark C. Thies

Keyword(s):

High Performance ◽

Carbon Materials ◽

Molecular Design

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Alloying effect on the order–disorder transformation in tetragonal FeNi

Scientific Reports ◽

10.1038/s41598-021-84482-5 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Li-Yun Tian ◽

Oliver Gutfleisch ◽

Olle Eriksson ◽

Levente Vitos

Keyword(s):

Transition Temperature ◽

High Performance ◽

Density Functional ◽

Permanent Magnets ◽

Positive Impact ◽

Design Strategies ◽

Alloying Effect ◽

Functional Theory ◽

Disorder Transition ◽

Disorder Transition Temperature

AbstractTetragonal ($${\hbox{L1}}_{0}$$ L1 0 ) FeNi is a promising material for high-performance rare-earth-free permanent magnets. Pure tetragonal FeNi is very difficult to synthesize due to its low chemical order–disorder transition temperature ($$\approx {593}$$ ≈ 593 K), and thus one must consider alternative non-equilibrium processing routes and alloy design strategies that make the formation of tetragonal FeNi feasible. In this paper, we investigate by density functional theory as implemented in the exact muffin-tin orbitals method whether alloying FeNi with a suitable element can have a positive impact on the phase formation and ordering properties while largely maintaining its attractive intrinsic magnetic properties. We find that small amount of non-magnetic (Al and Ti) or magnetic (Cr and Co) elements increase the order–disorder transition temperature. Adding Mo to the Co-doped system further enhances the ordering temperature while the Curie temperature is decreased only by a few degrees. Our results show that alloying is a viable route to stabilizing the ordered tetragonal phase of FeNi.

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Hierarchical molecular design of high-performance infrared nonlinear Ag2HgI4 material by defect engineering strategy

Materials Today Physics ◽

10.1016/j.mtphys.2021.100432 ◽

2021 ◽

pp. 100432

Author(s):

Can Yang ◽

Xian Liu ◽

Chunlin Teng ◽

Xiaohong Cheng ◽

Fei Liang ◽

...

Keyword(s):

High Performance ◽

Molecular Design ◽

Defect Engineering ◽

Engineering Strategy

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Molecular design revitalizes the low-cost PTV-polymer for highly efficient organic solar cells

National Science Review ◽

10.1093/nsr/nwab031 ◽

2021 ◽

Author(s):

Junzhen Ren ◽

Pengqing Bi ◽

Jianqi Zhang ◽

Jiao Liu ◽

Jingwen Wang ◽

...

Keyword(s):

Solar Cells ◽

Organic Solar Cells ◽

High Performance ◽

Molecular Design ◽

Raw Materials ◽

Low Cost ◽

Stable Conformation ◽

Chemical Structures ◽

Aggregation Effect ◽

Industrialization Process

Abstract Developing photovoltaic materials with simple chemical structures and easy synthesis still remains a major challenge in the industrialization process of organic solar cells (OSCs). Herein, an ester substituted poly(thiophene vinylene) derivative, PTVT-T, was designed and synthesized in very few steps by adopting commercially available raw materials. The ester groups on the thiophene units enable PTVT-T to have a planar and stable conformation. Moreover, PTVT-T presents a wide absorption band and strong aggregation effect in solution, which are the key characteristics needed to realize high performance in non-fullerene-acceptor (NFA)-based OSCs. We then prepared OSCs by blending PTVT-T with three representative fullerene- and NF-based acceptors, PC71BM, IT-4F and BTP-eC9. It was found that PTVT-T can work well with all the acceptors, showing great potential to match new emerging NFAs. Particularly, a remarkable power conversion efficiency of 16.20% is achieved in a PTVT-T:BTP-eC9-based device, which is the highest value among the counterparts based on PTV derivatives. This work demonstrates that PTVT-T shows great potential for the future commercialization of OSCs.

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Precise Molecular Design for High‐Performance Luminogens with Aggregation‐Induced Emission

Advanced Materials ◽

10.1002/adma.201903530 ◽

2019 ◽

Vol 32 (1) ◽

pp. 1903530 ◽

Cited By ~ 47

Author(s):

Shidang Xu ◽

Yukun Duan ◽

Bin Liu

Keyword(s):

High Performance ◽

Molecular Design ◽

Aggregation Induced Emission

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Application of Polycarboxylate Superplasticizer in the Concrete

Materials Science Forum ◽

10.4028/www.scientific.net/msf.898.2076 ◽

2017 ◽

Vol 898 ◽

pp. 2076-2080 ◽

Cited By ~ 4

Author(s):

Xing Qi Huang ◽

Xiao Rong Li ◽

Da Wei Zhang ◽

Chang Jun Xue ◽

Ai Qin Zhang

Keyword(s):

High Performance ◽

High Performance Concrete ◽

Molecular Design ◽

High Water ◽

Repulsive Force ◽

Reducing Agent ◽

Functional Design ◽

Agent Based ◽

Type Water ◽

Low Dosage

Compared with the traditional water reducer, polycarboxylicwater-reducing agent exhibits the advantages of high water-reducing rate, cement paste fluidity and low slump loss, etc. The structure of polycarboxylates water reducing agent molecular is comb type. Water reducing agent can be used in the molecular design because it has high water reducing rate, low dosage, good slump stability, and have great potential in increase strength. In recent years, it has attracted many researchers' attention. Water reducing agent can block or destroy cement granular flocculation structure, through the surface function, complexation, electrostatic repulsion force and stereo repulsive force. Research on water reducing agent based on the application of poly carboxylic acid can realize functional design of water reducing agent, so as to promote the development of high-performance concrete.

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Molecular design and fabrication of PIM-1/polyphosphazene blend membranes with high performance for CO2/N2 separation

Journal of Membrane Science ◽

10.1016/j.memsci.2021.119764 ◽

2021 ◽

pp. 119764

Author(s):

Ali K. Sekizkardes ◽

Samir Budhathoki ◽

Lingxiang Zhu ◽

Victor Kusuma ◽

Zi Tong ◽

...

Keyword(s):

High Performance ◽

Molecular Design ◽

Blend Membranes

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