Lorenzo Cavicchi, Mayra Peralta, Álvaro Moreno, Maia Vergniory, Pablo Jarillo-Herrero, Claudia Felser, Giuseppe C. La Rocca, Frank H. L. Koppens, Marco Polini
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Recognizing molecular chirality via twisted 2D materials
Chirality pervades natural processes from the atomic to the cosmic scales,
crucially impacting molecular chemistry and pharmaceutics. Traditional
chirality sensing methods face challenges in sensitivity and efficiency,
prompting the quest of novel chiral recognition solutions based on
nanophotonics. In this work we theoretically investigate the possibility to
carry out enantiomeric discrimination by measuring the spontaneous emission
rate of chiral molecules on twisted two-dimensional materials. We first present
a general theoretical framework based on dyadic Green's functions to calculate
the chiral contribution to the decay rate in the presence of a generic chiral
bilayer interface. We then combine this theory with density functional theory
to obtain numerical estimates of the decay rate of helical bilayer nanographene
molecules placed on top of twisted bilayer graphene.