scholarly journals Structure–Property Relationship of Polymerized Ionic Liquids for Solid-State Electrolyte Membranes

Polymers ◽  
2021 ◽  
Vol 13 (5) ◽  
pp. 792
Author(s):  
Robert Löwe ◽  
Thomas Hanemann ◽  
Tatiana Zinkevich ◽  
Andreas Hofmann
Keyword(s):  
Ionic Liquids ◽  
Glass Transition ◽  
Ionic Conductivity ◽  
Salt Content ◽  
Lithium Ion ◽  
Transition Temperatures ◽  
Structure Property ◽  
Glass Transition Temperatures ◽  
Conducting Salt ◽  
Ion Conducting

Eight new polymerized ammonium-based ionic liquids were prepared as thin membrane films and evaluated within the scope of their usage in lithium-ion batteries. The focus of this work is to get a better understanding of the influence of structural modifications of the monomers on the polymerized materials. Further, different concentrations of a lithium-ion conducting salt were applied in order to receive an optimized combination of monomer structure and lithium salt concentration. It was found that an increased side chain length of the studied ammonium-based polymerized ionic liquids leads to a reduction in glass transition temperatures and increased ionic conductivity values. As a result of the addition of conducting salt to the PIL membranes, the glass transition temperatures and the ionic conductivity values decreases. Nevertheless, PFG-NMR reveals a higher lithium-ion mobility for a sample with higher conducting salt content.

Ion specific, odd–even glass transition temperatures and conductivities in precise network polymerized ionic liquids

2019 ◽  
Vol 4 (2) ◽  
pp. 332-341 ◽  
Author(s):  
Chengtian Shen ◽  
Qiujie Zhao ◽  
Christopher M. Evans
Keyword(s):  
Ionic Liquids ◽  
Glass Transition ◽  
Network Architectures ◽  
Transition Temperatures ◽  
Glass Transition Temperatures

Network architectures reveal odd–even effects in existing PIL systems.

Structure-Property Relationship in Rubber-Modified Propylene-Ethylene Block Copolymer Blends

1988 ◽  
Vol 61 (5) ◽  
pp. 747-759 ◽  
Author(s):  
M. M. Sain ◽  
I. Hudec ◽  
J. Beniska ◽  
P. Rosner
Keyword(s):  
Mechanical Properties ◽  
Glass Transition ◽  
Block Copolymer ◽  
Strong Interaction ◽  
Transition Temperatures ◽  
Structure Property ◽  
Glass Transition Temperatures ◽  
Copolymer Blends ◽  
Structure Property Relationship ◽  
Plastic Components

Abstract The incorporation of a phase modifier, as is well known in the case of elasto-plastic blends, leads to an improvement of mechanical properties and brittleness character for PRP-EVA blends. Similarly, the influence of a cocuring agent and a phase modifier on NR-PRP blends also improved the mechanical properties. Although the modification of the PRP-EVA blend has very little influence on glass transition temperatures, the NR-PRP blends show a measurable shift in their glass-transition temperatures. It is demonstrated that strong interaction occurs between the elastic and plastic components of the blends. Further, it has been shown that this interaction is responsible for improved properties of the blends over that of the pure polymer components.

Colorless polyimides derived from adamantane-containing diamines

2020 ◽  
Vol 11 (37) ◽  
pp. 6009-6016
Author(s):  
Jie Miao ◽  
Xiaofan Hu ◽  
Xianwei Wang ◽  
Xiangsheng Meng ◽  
Zhen Wang ◽  
...  
Keyword(s):  
Glass Transition ◽  
Transition Temperatures ◽  
Structure Property ◽  
Glass Transition Temperatures ◽  
Property Relationship ◽  
Structure Property Relationship ◽  
Relationship Of

Colorless polyimides with high glass transition temperatures (up to 440 °C) were developed from three adamantane-containing diamines, and the structure–property relationship of this series of polyimides was established.

Chain dynamics and glass transition of dry native cellulose solutions in ionic liquids

Soft Matter ◽  
2020 ◽  
Vol 16 (1) ◽  
pp. 200-207 ◽  
Author(s):  
Nyalaliska W. Utomo ◽  
Indira Saifuddin ◽  
Behzad Nazari ◽  
Preet Jain ◽  
Ralph H. Colby
Keyword(s):  
Ionic Liquids ◽  
Glass Transition ◽  
Transition Temperatures ◽  
Chain Dynamics ◽  
Glass Transition Temperatures ◽  
Native Cellulose

Glass transition temperatures of cellulose solutions in three ionic liquids, determined from the peak in tan(δ) = G′′/G′, exhibit a minimum at about 2 wt% cellulose.

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