Add to ORKGMechanical softness and deformability underpin most of the advantages offered by semiconducting polymers. A detailed understanding of the mechanical properties of these materials is crucial for the design and manufacturing of robust, thin-film devices such as solar cells, displays, and sensors. The mechanical behavior of polymers is a complex function of many interrelated factors that span multiple scales, ranging from molecular structure, to microstructural morphology, and device geometry. This thesis builds a comprehensive understanding of the thermomechanical properties of polymeric semiconductors through the development and experimental-validation of computational methods for mechanical simulation. A predictive computational methodology...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
A multiscale simulation method for the determination of mechanical properties of semi-crystalline po...
Molecular dynamics (MD) provides valuable insights into the structure, dynamics, and properties of m...
Mechanical softness and deformability underpin most of the advantages offered by semiconducting poly...
In contrast to conventional silicon-based electronics, semiconducting polymers show great promise fo...
Atomistic simulations, also known as molecular dynamics simulations, can give significant insights o...
We use molecular dynamics (MD) to perform an extensive characterization of the thermo-mechanical res...
In flexible electronics, polymeric materials may replace conventional substrate materials as silicon...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
Polymer systems have gained attention during the past years because of their technological and indus...
Molecular dynamics simulations are conducted to predict thermal and mechanical properties of a famil...
Semiconducting polymers—typically fabricated as thin films (~100 nm)—have always been associated wit...
We have employed molecular dynamics simulations to study the behavior of virtual polymeric materials...
We have employed molecular dynamics simulations to study the behavior of virtual polymeric material...
Partially oriented polymeric structures such as semi-crystalline polymers and liquid crystalline pol...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
A multiscale simulation method for the determination of mechanical properties of semi-crystalline po...
Molecular dynamics (MD) provides valuable insights into the structure, dynamics, and properties of m...
Mechanical softness and deformability underpin most of the advantages offered by semiconducting poly...
In contrast to conventional silicon-based electronics, semiconducting polymers show great promise fo...
Atomistic simulations, also known as molecular dynamics simulations, can give significant insights o...
We use molecular dynamics (MD) to perform an extensive characterization of the thermo-mechanical res...
In flexible electronics, polymeric materials may replace conventional substrate materials as silicon...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
Polymer systems have gained attention during the past years because of their technological and indus...
Molecular dynamics simulations are conducted to predict thermal and mechanical properties of a famil...
Semiconducting polymers—typically fabricated as thin films (~100 nm)—have always been associated wit...
We have employed molecular dynamics simulations to study the behavior of virtual polymeric materials...
We have employed molecular dynamics simulations to study the behavior of virtual polymeric material...
Partially oriented polymeric structures such as semi-crystalline polymers and liquid crystalline pol...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
A multiscale simulation method for the determination of mechanical properties of semi-crystalline po...
Molecular dynamics (MD) provides valuable insights into the structure, dynamics, and properties of m...