Publication detail

Real-time monitoring of the UV-induced formation of quantum dots on a milliliter, microliter, and nanoliter scale

NEJDL, L. ZÍTKA, J. MRAVEC, F. MILOSAVLJEVIĆ, V. ZÍTKA, O. KOPEL, P. ADAM, V. VACULOVIČOVÁ, M.

Original Title

Real-time monitoring of the UV-induced formation of quantum dots on a milliliter, microliter, and nanoliter scale

English Title

Real-time monitoring of the UV-induced formation of quantum dots on a milliliter, microliter, and nanoliter scale

Type

journal article in Web of Science

Language

en

Original Abstract

The authors report on a systematic study on the low-cost, low-temperature, and fast synthesis of water soluble quantum dots (QDs) stabilized by mercaptosuccinic acid by UV irradiation. The effects of UV irradiation (at 254 nm and 250 nm) and temperature on the precursors (Cd:Se, Cd:Te,Cd, Zn:S, Zn:Se and Zn) are described.

English abstract

The authors report on a systematic study on the low-cost, low-temperature, and fast synthesis of water soluble quantum dots (QDs) stabilized by mercaptosuccinic acid by UV irradiation. The effects of UV irradiation (at 254 nm and 250 nm) and temperature on the precursors (Cd:Se, Cd:Te,Cd, Zn:S, Zn:Se and Zn) are described.

Keywords

Nanocrystal; Capillary electrophoresis; Irradiation; Fluorescence

Released

01.05.2017

Publisher

Springer Verlag

Location

Rakousko

Pages from

1489

Pages to

1497

Pages count

9

BibTex


@article{BUT134392,
  author="Lukáš {Nejdl} and Jan {Zítka} and Filip {Mravec} and Vedran {Milosavljević} and Ondřej {Zítka} and Pavel {Kopel} and Vojtěch {Adam} and Markéta {Vaculovičová}",
  title="Real-time monitoring of the UV-induced formation of quantum
dots on a milliliter, microliter, and nanoliter scale",
  annote="The authors report on a systematic study on the low-cost, low-temperature, and fast synthesis of water soluble quantum dots (QDs) stabilized by mercaptosuccinic acid by UV irradiation. The effects of UV irradiation (at 254 nm and 250 nm) and temperature on the precursors (Cd:Se, Cd:Te,Cd, Zn:S, Zn:Se and Zn) are described.",
  address="Springer Verlag",
  chapter="134392",
  doi="10.1007/s00604-017-2149-8",
  howpublished="print",
  institution="Springer Verlag",
  number="5",
  volume="184",
  year="2017",
  month="may",
  pages="1489--1497",
  publisher="Springer Verlag",
  type="journal article in Web of Science"
}