Surface Chemistry of Semiconducting Quantum Dots: Theoretical Perspectives

Abstract: Colloidal quantum dots (QDs) are near-ideal nanomaterials for energy conversion and lighting technologies. However, their photophysics exhibits supreme sensitivity to surface passivation and defects, of which control is problematic. The role of passivating ligands in photodynamics remains questionable and is a focus of ongoing research. The optically forbidden nature of surface-associated states makes direct measurements on them challenging. Therefore, computational modeling is imperative for insights into sur… Show more

“…Commonly used organic fluorophores have two significant limitations: (1) they cannot fluoresce continuously over long periods (long term imaging) and (2) they are not optimised for multicolour applications (multiplexing) [372], i.e., simultaneous, not sequential, detection of multiple signals. The unique optical properties of inorganic colloids, in many case referred to as Quantum Dots (QD) [20,39,44,46,163,210,307,311,[373][374][375][376][377], make them instead appealing as in vivo and in vitro fluorophores in a variety of biological investigations because they are able to overcome problems of long-term stability and multi-signal detection [105,372,378]. Nevertheless, one of the most significant drawbacks is the toxicity of QDs.…”

Functionalisation of Colloidal Transition Metal Sulphides Nanocrystals: A Fascinating and Challenging Playground for the Chemist

“…Commonly used organic fluorophores have two significant limitations: (1) they cannot fluoresce continuously over long periods (long term imaging) and (2) they are not optimised for multicolour applications (multiplexing) [372], i.e., simultaneous, not sequential, detection of multiple signals. The unique optical properties of inorganic colloids, in many case referred to as Quantum Dots (QD) [20,39,44,46,163,210,307,311,[373][374][375][376][377], make them instead appealing as in vivo and in vitro fluorophores in a variety of biological investigations because they are able to overcome problems of long-term stability and multi-signal detection [105,372,378]. Nevertheless, one of the most significant drawbacks is the toxicity of QDs.…”

Functionalisation of Colloidal Transition Metal Sulphides Nanocrystals: A Fascinating and Challenging Playground for the Chemist

“…However, computational methods could provide valuable insights to allow researchers to understand the electronic and optical properties of quantum dots and nanoclusters. 15 This understanding of the electronic structure and a knowledge of how to manipulate it has great importance as far as practical applications are concerned. Numerous theoretical studies have been conducted to understand the electronic properties of CdSe and CdTe nanoclusters.…”

Computational investigations into the structural and electronic properties of Cd_nTe_n (n = 1–17) quantum dots

“…Первоначально основное внимание исследователей привлекали квантовые точки из прямозонных полупроводников типа CdSe, CdTe, HgTe, PbS, PbSe, InAs и др. [1][2][3][4][5][6]. Однако в последние десятилетия все больше внимания стали уделять изучению квантовых точек из непрямозонных полупроводников: C, Si и Ge [7][8][9].…”

Влияние Лигандов И Растворителя На Безызлучательные Переходы В Полупроводниковых Квантовых Точках (Обзор)