Material challenges for solar cells in the twenty-first century: directions in emerging technologies.
Samy AlmosniAmaury DelamarreZacharie JehlDaniel SuchetLudmila CojocaruMaxime GiteauBenoit BehaghelAnatole JulianCamille IbrahimLéa TatryHaibin WangTakaya KuboSatoshi UchidaHiroshi SegawaNaoya MiyashitaRyo TamakiYasushi ShojiKatsuhisa YoshidaNazmul AhsanKentaro WatanabeTomoyuki InoueMasakazu SugiyamaYoshiaki NakanoTomofumi HamamuraThierry ToupanceCéline OlivierSylvain ChambonLaurence VignauCamille GeffroyEric CloutetGeorges HadziioannouNicolas CavassilasPierre RaleAndrea CattoniStéphane CollinFrançois GibelliMyriam PaireLaurent LombezDamien AureauMuriel BouttemyArnaud EtcheberryYoshitaka OkadaJean-François GuillemolesPublished in: Science and technology of advanced materials (2018)
Photovoltaic generation has stepped up within the last decade from outsider status to one of the important contributors of the ongoing energy transition, with about 1.7% of world electricity provided by solar cells. Progress in materials and production processes has played an important part in this development. Yet, there are many challenges before photovoltaics could provide clean, abundant, and cheap energy. Here, we review this research direction, with a focus on the results obtained within a Japan-French cooperation program, NextPV, working on promising solar cell technologies. The cooperation was focused on efficient photovoltaic devices, such as multijunction, ultrathin, intermediate band, and hot-carrier solar cells, and on printable solar cell materials such as colloidal quantum dots.