Cryo-mediated exfoliation and fracturing of layered materials into 2D quantum dots.
Yan WangYang LiuJianfang ZhangJingjie WuHui XuXiewen WenXiang ZhangChandra Sekhar TiwaryWei YangRobert VajtaiYong ZhangNitin ChopraIhab Nizar OdehYucheng WuPulickel M AjayanPublished in: Science advances (2017)
Atomically thin quantum dots from layered materials promise new science and applications, but their scalable synthesis and separation have been challenging. We demonstrate a universal approach for the preparation of quantum dots from a series of materials, such as graphite, MoS2, WS2, h-BN, TiS2, NbS2, Bi2Se3, MoTe2, Sb2Te3, etc., using a cryo-mediated liquid-phase exfoliation and fracturing process. The method relies on liquid nitrogen pretreatment of bulk layered materials before exfoliation and breakdown into atomically thin two-dimensional quantum dots of few-nanometer lateral dimensions, exhibiting size-confined optical properties. This process is efficient for a variety of common solvents with a wide range of surface tension parameters and eliminates the use of surfactants, resulting in pristine quantum dots without surfactant covering or chemical modification.