The term heterostrain was proposed in 2018 in the context of materials science to simplify the designation of possible strain situations in van der Waals heterostructures where two (or more)

two-dimensional materials In materials science, the term single-layer materials or 2D materials refers to crystalline solids consisting of a single layer of atoms. These materials are promising for some applications but remain the focus of research. Single-layer materials ...

are stacked on top of each other. These layers can experience the same deformation (homostrain) or different deformations (heterostrain). In addition to

twist Twist may refer to: In arts and entertainment Film, television, and stage * ''Twist'' (2003 film), a 2003 independent film loosely based on Charles Dickens's novel ''Oliver Twist'' * ''Twist'' (2021 film), a 2021 modern rendition of ''Olive ...

, heterostrain can have important consequences on the electronic and optical properties of the resulting structure. As such, the control of heterostrain is emerging as a sub-field of straintronics in which the properties of 2D materials are controlled by strain.

Etymology

Heterostrain is constructed from the Greek prefix hetero- (different) and the noun

strain Strain may refer to: Science and technology * Strain (biology), variants of plants, viruses or bacteria; or an inbred animal used for experimental purposes * Strain (chemistry), a chemical stress of a molecule * Strain (injury), an injury to a mu ...

. It means that the two layers constituting the structure are subject to different strains. This is in contrast with homostrain in which the two layers as subject to the same strain. Heterostrain is designated as "relative strain" by some authors.

Manifestation and measurement of heterostrain

For simplicity, the case of two gaphene layers is considered. The description can be generalized for the case of different 2D materials forming an

heterostructure A heterojunction is an interface between two layers or regions of dissimilar semiconductors. These semiconducting materials have unequal band gaps as opposed to a homojunction. It is often advantageous to engineer the electronic energy bands in m ...

. In nature, the two graphene layers usually stack with a shift of half a unit cell. This configuration is the most energetically favorable and is found in

graphite Graphite () is a crystalline form of the element carbon. It consists of stacked layers of graphene. Graphite occurs naturally and is the most stable form of carbon under standard conditions. Synthetic and natural graphite are consumed on lar ...

. If one layer is strained while the other is left intact, a

moiré pattern In mathematics, physics, and art, moiré patterns ( , , ) or moiré fringes are large-scale interference patterns that can be produced when an opaque ruled pattern with transparent gaps is overlaid on another similar pattern. For the moiré ...

signaling the regions where the atomic lattices of the two layers are in or out of registry. The shape of the moiré pattern depends on the type of strain. * If the layer is deformed along one direction (uniaxial heterostrain), the moiré is one dimensional. * If the layer is strained in the same way along two directions (biaxial heterostrain), the moiré is a two-dimensional superstructure. In General, a layer can be deformed by an arbitrary combination of both types of heterostrain. Heterostrain can be measured by

scanning tunneling microscope A scanning tunneling microscope (STM) is a type of microscope used for imaging surfaces at the atomic level. Its development in 1981 earned its inventors, Gerd Binnig and Heinrich Rohrer, then at IBM Zürich, the Nobel Prize in Physics in 1986 ...

which provides images showing both the atomic lattice of the first layer and the moiré superlattice. Relating the atomic lattice to the moiré lattice allows to determine entirely the relative arrangement of the layers (biaxial, uniaxial heterostrain and twist). The method is immune to calibration artifacts which affect the image of the two layers identically which cancels out in the relative measurement. Alternatively, with a well calibrated microscope and if biaxial heterostrain is low enough, it is possible to determine twist and uniaxial heterostrain from the knowledge of the moiré period in all directions. On the contrary it is much more difficult to determine homostrain which necessitates a calibration sample.

Origin and impact of heterostrain

Heterostrain is generated during the fabrication of the 2D materials stack. It can result from a meta-stable configuration during bottom up assembly or from the layer manipulation in the tear and stack technique. It has been shown to be ubiquitous in twisted graphene layers near the magic twist angle and to be the main factor in the flat band width of those systems. Heterostrain has a much larger impact on electronic properties than homostrain. It explains some of the sample variability which had previously been puzzeling. Research is now moving towards understanding the impact of spatial fluctuations of heterostrain.{{Cite journal , last1=Nakatsuji , first1=Naoto , last2=Koshino , first2=Mikito , date=2022-06-14 , title=Moiré disorder effect in twisted bilayer graphene , url=https://link.aps.org/doi/10.1103/PhysRevB.105.245408 , journal=Physical Review B , language=en , volume=105 , issue=24 , pages=245408 , doi=10.1103/PhysRevB.105.245408 , issn=2469-9950 , arxiv=2204.06177, bibcode=2022PhRvB.105x5408N , s2cid=248157360

References

Deformation (mechanics) Materials science