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Evers, W.H. (author), Schins, J.M. (author), Aerts, M. (author), Kulkarni, A. (author), Capiod, P. (author), Berthe, M. (author), Grandidier, B. (author), Delerue, C. (author), van der Zant, H.S.J. (author), van Overbeek, C. (author), Peterse, J.L. (author), Vanmaekelbergh, D. (author), Siebbeles, L.D.A. (author)Two-dimensional networks of quantum dots connected by atomic bonds have an electronic structure that is distinct from that of arrays of quantum dots coupled by ligand molecules. We prepared atomically coherent two-dimensional percolative networks of PbSe quantum dots connected via atomic bonds. Here, we show that photoexcitation leads to...journal article 2015
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Aerts, M. (author), Bielewicz, T. (author), Klinke, C. (author), Grozema, F.C. (author), Houtepen, A.J. (author), Schins, J.M. (author), Siebbeles, L.D.A. (author)Semiconductor nanocrystals are promising for use in cheap and highly efficient solar cells. A high efficiency can be achieved by carrier multiplication (CM), which yields multiple electron-hole pairs for a single absorbed photon. Lead chalcogenide nanocrystals are of specific interest, since their band gap can be tuned to be optimal to exploit...journal article 2014
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Suchand Sandeep, C.S. (author), Ten Cate, S. (author), Schins, J.M. (author), Savenije, T.J. (author), Liu, Y. (author), Law, M. (author), Kinge, S. (author), Houtepen, A.J. (author), Siebbeles, L.D.A. (author)Carrier multiplication, the generation of multiple electron–hole pairs by a single photon, is of great interest for solar cells as it may enhance their photocurrent. This process has been shown to occur efficiently in colloidal quantum dots, however, harvesting of the generated multiple charges has proved difficult. Here we show that by tuning...journal article 2013