Scipediacontent: Scipediacontent moved page Draft Content 968982945 to Leon Melnik 2021a

2021-07-12T06:40:59Z

Scipediacontent moved page Draft Content 968982945 to Leon Melnik 2021a

Scipediacontent: Created page with "== Abstract == In this contribution, we study the properties of new promising graphenebased materials with shape memory effects. While traditional shape memory alloys have be..."

2021-07-12T06:40:57Z

Created page with "== Abstract == In this contribution, we study the properties of new promising graphenebased materials with shape memory effects. While traditional shape memory alloys have be..."

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== Abstract ==

In this contribution, we study the properties of new promising graphenebased materials with shape memory effects. While traditional shape memory alloys have been extensively studied, it is a challenge to preserve shape memory properties at the nanoscale. As a result, new materials have been explored, among which graphene oxide (GO) crystals with ordered epoxy groups where a recoverable strain of 14.5% has already been reported. We use such nanoscale GO structures as a benchmark example for our studies here. MBTR and SOAP representations are employed in a general-purpose ML model to analyze the effect of long-range interactions in GO. Finally, a physics-based ML model allows us to build interatomic potentials for 2D and 1D systems. The model predicts quantum mechanical effects due to the electronic confinement in narrow nanoribbons and shows the evolution of the local minimal energies associated with two-phase states.

== Full document ==
<pdf>Media:Draft_Content_968982945P_IDC13_815.pdf</pdf>

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Leon Melnik 2021a - Revision history

Scipediacontent: Scipediacontent moved page Draft Content 968982945 to Leon Melnik 2021a

Scipediacontent: Created page with "== Abstract == In this contribution, we study the properties of new promising graphenebased materials with shape memory effects. While traditional shape memory alloys have be..."