Effect of plasticizer on the ion-conductive and dielectric
The effect of plasticizers on transport and electrochemical properties of PEO-based electrolytes for lithium rechargeable batteries. Solid State Ion. 2002;149:29–37. Article CAS Google Scholar
The effect of plasticizers on transport and electrochemical
The objectives of this work are (1) to understand how organic additives influence the transport and electrochemical properties and (2) to find the best plasticizer among them in terms of the key properties such as conductivity, cation transference number, electrochemical stability window, and compatibility with Li metal.
Plasticiser loss from plastic or rubber products through
Polymers experience degradation during storage and service. One of the main degradation mechanisms of plasticised-polymer products is the loss of plasticiser, which leads to poorer mechanical
Chemical Admixtures - Cement
Superplasticizers, also known as plasticizers or high-range water reducers (HRWR), reduce water content by 12 to 30 percent and can be added to concrete with a low-to-normal slump and water-cement ratio to make high-slump flowing concrete.
What Plasticizers Do & How They Affect Properties | Osborne
PVC is one of the most durable materials in the world because of plasticizers added to it, lasting up to 50 years without damage. Because plasticizers can make the material stronger than before, PVC is largely used in the construction, automotive and wire and cable sectors.
- Do plasticizers enhance lithium ion transport in PEO-based solid polymer electrolytes?
- Enhanced lithium ion transport in PEO-based solid polymer electrolytes employing a novel class of plasticizers Ionic conductivity studies in composite solid polymer electrolytes based on methylmethacrylate Effect of plasticizer and lithium salt concentration in PMMA-based composite polymer electrolytes Int. J. Electrochem.
- Do plasticizers affect the mechanical and thermal properties of polymer inclusion membranes?
- Abstract: This study investigated the influence of various plasticizers commonly used in the manufac-ture of polymer inclusion membranes (PIMs), such as 2-nitrophenyl octyl ether (NPOE), phthalates, adipates, and sebacates on the mechanical, thermal, and transport properties of membranes.
- Does plasticizer affect free volume and transport properties?
- Although the thermal and mechanical properties have been widely studied in the literature, the effect of the plasticizer on free volume and transport properties has not been deeply analysed. The free volume was characterized using positron annihilation lifetime spectroscopy observing its linear increase with TbC content.
- Do plasticizers affect transport eficiency?
- The plasticizers were found to significantly affect the characteristics of membrane hydrophilicity, mechanical flexibility, and thermal stability. Transport experiments using Hg(II) as a model target ion revealed that, for CTA-based PIMs, the plasticizer did not significantly affect transport eficiency.
- Why is plasticizer important?
- Plasticizer facilitates the reduction of crystalline nature of the polymer matrix and also increases the polymer segmental mobility. It further results in greater ion dissociation which allows greater number of charge carriers for ion transport in the electrolyte.
- Does plasticizer affect structural properties of polymer-salt matrix?
- The combined effect of filler and plasticizer on polymer-salt matrix can lead to better electrical, electrochemical as well as thermal properties. 3. Conclusions Effect of inclusion of plasticizers on structural properties of polymer electrolytes is discussed with aid of literature reports available.
