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Strong Light-Matter Interactions in Heterostructures of Atomically Thin Films
Britnell, L.,Ribeiro, R. M.,Eckmann, A.,Jalil, R.,Belle, B. D.,Mishchenko, A.,Kim, Y.-J.,Gorbachev, R. V.,Georgiou, T.,Morozov, S. V.,Grigorenko, A. N.,Geim, A. K.,Casiraghi, C.,Neto, A. H. Castro,Nov American Association for the Advancement of Scienc 2013 Science Vol.340 No.6138
<P><B>Atomic Layer Heterostructures—More Is More</B></P><P>The isolation of stable layers of various materials, only an atom or several atoms thick, has provided the opportunity to fabricate devices with novel functionality and to probe fundamental physics. <B>Britnell <I>et al.</I></B> (p. 1311, published online 2 May; see the Perspective by <B>Hamm and Hess</B>) sandwiched a single layer of the transition metal dichalcogenide WS<SUB>2</SUB> between two sheets of graphene. The photocurrent response of the heterostructure device was enhanced, compared to that of the bare layer of WS<SUB>2</SUB>. The prospect of combining single or several-atom-thick layers into heterostructures should help to develop materials with a wide range of properties.</P>