Add to ORKGWe present experimental results on the phase behavior of block copolymer/salt mixtures over a wide range of copolymer compositions, molecular weights, and salt concentrations. The experimental system comprises polystyrene- block-poly(ethylene oxide) and lithium bis(trifluoromethanesulfonyl)imide (LiTFSI) salt. It is well established that LiTFSI interacts favorably with poly(ethylene oxide) relative to polystyrene. The relationship between chain length and copolymer composition at fixed temperature is U-shaped, as seen in experiments on conventional block copolymers and as anticipated from the standard self-consistent field theory (SCFT) of block copolymer melts. The phase behavior can be explained in terms of an effective Flory-Huggins inte...
We studied the effect of salt addition on a diblock copolymer system with a negative Flory-Huggins i...
We examine the phase behavior of a hybrid organic–inorganic diblock copolymer/salt mixtures. The exp...
Mixtures of block copolymers and lithium salts are promising candidates for lithium battery electrol...
We present experimental results on the phase behavior of block copolymer/salt mixtures over a wide r...
We present experimental results on the phase behavior of block copolymer/salt mixtures over a wide r...
The thermodynamics of block copolymer/salt mixtures were quantified through the application of Leibl...
We report on the thermal properties, phase behavior, and thermodynamics of a series of polystyrene-b...
We report on the thermal properties, phase behavior, and thermodynamics of a series of polystyrene-b...
The objective of this review is to organize literature data on the thermodynamic properties of salt-...
We examine the phase behavior of a hybrid organic-inorganic diblock copolymer/salt mixtures. The exp...
The effects of salt-doping on the morphological behavior of block copolymers are well established bu...
The effects of salt-doping on the morphological behavior of block copolymers are well established bu...
We studied the effect of salt addition on a diblock copolymer system with a negative Flory-Huggins i...
Ion-containing block copolymers are of interest for applications such as electrolytes in rechargeabl...
Ion-containing block copolymers are of interest for applications such as electrolytes in rechargeabl...
We studied the effect of salt addition on a diblock copolymer system with a negative Flory-Huggins i...
We examine the phase behavior of a hybrid organic–inorganic diblock copolymer/salt mixtures. The exp...
Mixtures of block copolymers and lithium salts are promising candidates for lithium battery electrol...
We present experimental results on the phase behavior of block copolymer/salt mixtures over a wide r...
We present experimental results on the phase behavior of block copolymer/salt mixtures over a wide r...
The thermodynamics of block copolymer/salt mixtures were quantified through the application of Leibl...
We report on the thermal properties, phase behavior, and thermodynamics of a series of polystyrene-b...
We report on the thermal properties, phase behavior, and thermodynamics of a series of polystyrene-b...
The objective of this review is to organize literature data on the thermodynamic properties of salt-...
We examine the phase behavior of a hybrid organic-inorganic diblock copolymer/salt mixtures. The exp...
The effects of salt-doping on the morphological behavior of block copolymers are well established bu...
The effects of salt-doping on the morphological behavior of block copolymers are well established bu...
We studied the effect of salt addition on a diblock copolymer system with a negative Flory-Huggins i...
Ion-containing block copolymers are of interest for applications such as electrolytes in rechargeabl...
Ion-containing block copolymers are of interest for applications such as electrolytes in rechargeabl...
We studied the effect of salt addition on a diblock copolymer system with a negative Flory-Huggins i...
We examine the phase behavior of a hybrid organic–inorganic diblock copolymer/salt mixtures. The exp...
Mixtures of block copolymers and lithium salts are promising candidates for lithium battery electrol...