About the Modeling of the Indentation of a Virus Shell: The Role of the Shape of the Probe

“…142–145 Although theoretical approaches are not discussed further here, these proposed models take into account the adhesion of the virus capsids onto the substrate, 146–147 geometry of the substrate, 146 and geometry of the AFM tip. 148…”

“…Development of theoretical models quickly followed measurements of the mechanical properties of virus capsids by AFM. Simple elastic shell approximations, continuum models, and models based on coarse-grain molecular dynamics have been developed. − Although theoretical approaches are not discussed further here, these proposed models take into account the adhesion of the virus capsids onto the substrate, , geometry of the substrate, and geometry of the AFM tip …”

Analytical Techniques to Characterize the Structure, Properties, and Assembly of Virus Capsids

“…142–145 Although theoretical approaches are not discussed further here, these proposed models take into account the adhesion of the virus capsids onto the substrate, 146–147 geometry of the substrate, 146 and geometry of the AFM tip. 148…”

“…Development of theoretical models quickly followed measurements of the mechanical properties of virus capsids by AFM. Simple elastic shell approximations, continuum models, and models based on coarse-grain molecular dynamics have been developed. − Although theoretical approaches are not discussed further here, these proposed models take into account the adhesion of the virus capsids onto the substrate, , geometry of the substrate, and geometry of the AFM tip …”

Analytical Techniques to Characterize the Structure, Properties, and Assembly of Virus Capsids

Spherical indentation model for evaluating the elastic properties of the shell of microsphere with core-shell structure