Skip to main navigation
Skip to search
Skip to main content
Bar-Ilan University Home
Help & FAQ
Link opens in a new tab
Search content at Bar-Ilan University
Home
Researchers
Organisations
Research output
Prizes
Student theses
Courses
Activities
Projects
Press/Media
Datasets
Equipment
Intrinsic Ion Transport Properties of Block Copolymer Electrolytes
Daniel Sharon
, Peter Bennington
, Moshe Dolejsi
, Michael A. Webb
, Ban Xuan Dong
, Juan J. De Pablo
, Paul F. Nealey
, Shrayesh N. Patel
The University of Chicago
Argonne National Laboratory
Princeton University
Research output
:
Contribution to journal
›
Article
›
peer-review
63
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Intrinsic Ion Transport Properties of Block Copolymer Electrolytes'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Oxalic Acid
100%
Ionic Transport Properties
100%
Block Copolymer Electrolyte
100%
Styrene
71%
Poly(ethylene oxide)
57%
Salt Concentration
28%
Polystyrene
28%
Lithium Bis(fluorosulfonyl)imide (LiFSI)
28%
Self-assembling
28%
Motivation
14%
Domain Structure
14%
Electrolyte
14%
Lithium-ion
14%
Conductivity Measurement
14%
Order of Magnitude
14%
Energy Storage Devices
14%
Intrinsic Properties
14%
Material Design
14%
Intrinsic Factors
14%
Extrinsic Factors
14%
Solid State
14%
Molar Ratio
14%
Mean-field Theory
14%
Electrolyte Systems
14%
Ion Transport
14%
Concentration Profile
14%
Lamellar Structure
14%
Monomer Concentration
14%
Repeating Unit
14%
Interfacial Engineering
14%
Fully Connected
14%
Domain Interface
14%
Interdigitated Electrodes
14%
Bulk Samples
14%
Conducting Materials
14%
Interfacial Effect
14%
Homopolymer
14%
Theory Calculation
14%
Chemical Design
14%
Block Model
14%
Specific Applications
14%
State Energy
14%
Intrinsic Conductivity
14%
Volume Percent
14%
Chemistry
Block Copolymer
100%
Ethylene
100%
Transport Property
100%
Styrene
71%
Poly(ethylene)
57%
Liquid Film
28%
Lithium
28%
Imide
28%
Molecular Mass
14%
Lithium Ion
14%
Energy Storage
14%
Concentration Profile
14%
Mean-Field Theory
14%
Interfacial Engineering
14%
Poly(styrene)
14%
Single Monomer Polymer
14%
Monomer
14%
Material Science
Block Copolymer
100%
Oxide Compound
100%
Polyethylene Glycol
57%
Polystyrene
28%
Lithium
28%
Film
14%
Lithium Ion
14%
Materials Design
14%
Thin Films
14%
Lamellar Structure
14%
Chemical Engineering
Block Copolymer
100%
Ethylene
100%
Styrene
71%
Polyethylene Oxides
57%
Polystyrene
28%
Interfacial Engineering
14%