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Bibliography

Our instruments are used by top reserchers world wide, including recent nobel prize winners, such as W.E. Moerner and S.W. Hell. Our bibliography is a collection of papers that mention explicitly PicoQuant or at least one of our product's name. Searching or browsing through the bibliography allows to find out which laboratories use PicoQuant devices and what type of applications have been reported so far.

The bibliography contains articles mentioning explicitly PicoQuant or at least one of our product's name (e.g. MicroTime). Most of the references can be found easily by full-text searches on the internet. However, some papers cite us only indirectly, sometimes not at all. Such publications are included only if the use of a PicoQuant product is known, for example, based on communication with the author(s). There are certainly many more articles reporting results obtained using PicoQuant devices. Unfortunately, such papers are often hidden for us. Please help completing this list.
Do you miss your publication? If yes, we will be happy to include it in our bibliography. Please send an e-mail to info@picoquant.com containing the appropriate citation. Thank you very much in advance for your kind co-operation.

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Searching for MicroTime 200

1302 results found.


Multi-target immunofuorescence by separation of antibody crosslabelling via spectral-FLIM-FRET

Rohilla S., Krämer B., Koberling F., Gregor I., Hocke A.C.
Scientific Reports, Vol.010, 3820 (2020)

Reference to: MicroTime 200, FLIMBee, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), SymPhoTime
Related to: FLIM, FCS, FRET

Photogenerated charge dynamics of CdS nanorods with spatially distributed MoS2 for photocatalytic hydrogen generation

Lu X., Chen W., Yao Y., Wen X., Hart J.N., Tsounis C., Toe C.Y., Scott J., Ng Y.H.
Chemical Engineering Journal, Vol.420, 127709 (2020)

Reference to: MicroTime 200
Related to: TRPL

Direct measurement of protein–protein interactions by FLIM-FRET at UV laser-induced DNA damage sites in living cells

Kaufmann T., Herbert S., Hackl B., Besold J.M., Schramek C., Gotzmann J., Elsayad K., Slade D.
Nucleic Acids Research, Vol.048, p.e122 (2020)

Reference to: MicroTime 200
Related to: FLIM, FRET

Palladium zero-mode waveguides for optical single-molecule detection with nanopores

Klughammer N., Dekker C.
Nanotechnology, Vol.032, 18LT01 (2020)

Reference to: MicroTime 200, SymPhoTime
Related to: FCS

Surface passivation of carbon nanoparticles with 1,2-phenylenediamine towards photoluminescent carbon dots

Petronela D.A., Craciun A.M., Mihalache I., Focsan M., Socaci C., Maniu D., Astilean S., Veca L.M., Terec A.
Revue Roumaine de Chimie, Vol.065, p.559-566 (2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), PicoHarp 300, SPADs, SymPhoTime

Micropatterning of cells on gold surfaces for biophysical applications

Grandy C., Kolb P., Port F., Gottschalk K.-E.
STAR Protocols, Vol.001, 100106 (2020)

Reference to: MicroTime 200

Flexible ZnO‑mAb nanoplatforms for selective peripheral blood mononuclear cell immobilization

Babu K.S., Pinheiro P.F., Marques C.F., Justino G.C., Andrade S.M., Alves M.M.
Scientific Reports, Vol.010, 15018 (2020)

Reference to: MicroTime 200, FluoTime 200, SPADs
Related to: FLIM

Silver nanoparticle on aluminum mirror: Active spectroscopy and decay rate enhancement

Kurochkin N.S., Eliseev S.P., Gritsienko A.V., Sychev V.V., Vutukhnovsky A.G.
Nanotechnology, Vol.031, 505206 (2020)

Reference to: MicroTime 200
Related to: FLIM

Freeform 3D plasmonic superstructures

Kim W.-G., Lee J., Devaraj V., Kim M., Jeong H., Choi E.J., Yang J., Lee D., Kim J.T., Oh J.-W.
preprint (2020)

Reference to: MicroTime 200, SymPhoTime

Facile resist-free nanopatterning of monolayers of MoS2 by focused ion-beam milling

Mupparapu R., Steinert M., George A., Tang Z., Turchanin A., Pertsch T., Staude I.
Advanced Materials Interfaces, Vol.007, 2000858 (2020)

Reference to: MicroTime 200

Effective charge separation through the sulfur vacancy interfacial in n-CdO/p-CdS bulk heterojunction particle and its solar-induced hydrogen production

Park B.H., Lee J., Park H., Do J.Y., Kim Y., Chava R.K., Kang M.
Journal of Industrial and Engineering Chemistry, Vol.091, p.149-166 (2020)

Reference to: MicroTime 200, PicoHarp 300

Macromolecular crowding: how shape and interactions affect diffusion

Skóra T., Vaghefikia F., Fitter J., Kondrat S.
The Journal of Physical Chemistry B, Vol.124, p.7537-7543 (2020)

Reference to: MicroTime 200, SymPhoTime
Related to: FCS

High-performance nonfullerene organic photovoltaics applicable for both outdoor and indoor environments through directional photon energy transfer

Han Y.W., Jung C.H., Lee H.S., Jeon S.J., Moon D.K.
ACS Applied Materials & Interfaces, Vol.012, p.38470-38482 (2020)

Reference to: MicroTime 200

Quantum dots of [Na4Cs6PbBr4]8+, water stable in Zeolite X, luminesce sharply in the green

Kim J.Y., Shim K.I., Han J.W., Joo J., Heo N.H., Seff K.
Advanced Materials, Vol.032, 2001868 (2020)

Reference to: MicroTime 200

Local energy landscape drives long exciton diffusion in 2D halide perovskite semiconductors

Baldwin A., Delport G., Leng K., Chahbazian R., Galkowski K., Loh K.P., Stranks S.D.
Applied Physics (2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Related to: FLIM, TRPL

Mechanistic insight to the chemical treatments of monolayer transition metal disulfides for photoluminescence enhancement

Li Z., Bretscher H., Zhang Y., Delport G., Xiao J., Lee A., Stranks S.D., Rao A.
Applied Physics (2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Related to: FLIM, TRPL

Halide mixing and phase segregation in Cs2AgBiX6 (X = Cl, Br, and I) double perovskites from Cesium-133 solid-state NMR and optical spectroscopy

Kubicki D.J., Saski M., MacPerson S., Gal̷kowski K., Lewiński J., Prochowicz D., Titman J.J., Stranks S.D.
Chemistry of Materials, Vol.032, p.8129-8138 (2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Related to: FLIM, TRPL

Laser recording of color voxels in lithium fluoride

Martynovich E.F., Chernova E.O., Dresvyansky V.P., Bugrov A.E., Kostryukov P.V., Konyashchenko A.V.
Optics & Laser Technology, Vol.131, 106430 (2020)

Reference to: MicroTime 200

Noble-metal free photocatalytic hydrogen generation of CuPc/TiO2 nanoparticles under visible-light irradiation

Moon H.S., Yong K.
Applied Surface Science, Vol.530, 147215(2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)

Organic solvent-free lyophilization assisted recrystallization synthesis of high-purity green emissive Cs3MnX5 (X = I, Br)

Kwon S.B., Choi S.H., Yoo J.H., Kim B.Y., Kang B.K., Song Y.H., Yoon D.H.
Journal of Alloys and Compounds, Vol.845, 156324 (2020)

Reference to: MicroTime 200, TimeHarp 260

Porous Zn1-xCdxS nanosheets/ZnO nanorod heterojunction photoanode via self-templated and cadmium ions exchanged conversion of ZnS(HDA)0.5 nanosheets/ZnO nanorod

Paril R.P., Mahadik M.A., Bae H.-S., Chae W.-S., Choi S.H., Jang J.S.
Chemical Engineering Journal, Vol.402, 126153 (2020)

Reference to: MicroTime 200
Related to: TRPL

Amplified fluorescence imaging using photonic Ag nanotip array: a comparative study on surface morphology effects

Jung J.-Y., Yang W.-G., Hong S.-h., Kim G.-H., Hwang K., Chae W.-S.
Applied Surface Science, Vol.529, 147139 (2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)

Simple and non-charged long-lived fluorescent intracellular organelle trackers

Herrero-Foncubierta P., del Carmen González-García M., Resa S., Paredes J.M., Ripoll C., Girón M.D., Salto R., Cuerva J.M., Orte A., Miguel D.
Dyes and Pigments, Vol.183, 108649 (2020)

Reference to: MicroTime 200
Related to: FLIM

Fast three-color single-molecule FRET using statistical inference

Yoo J., Kim J.-Y., Louis J.M., Gopich I.V., Chung H.S.
Nature Communications, Vol.011, 3336 (2020)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Related to: FRET

Detection by fluorescence microscopy of N-aminopeptidases in bacteria using an ICT sensor with multiphoton excitation: usefulness for super-resolution microscopy

Valverde-Pozo J., Paredes J.M., Salto-Giron C., Herrero-Foncubierta P., Giron M.D., Miguel D.,, Cuerva J.M., Alvarez-Pez J.M., Salto R., Talavera E.M.
Sensors and Actuators B: Chemical Vol.321, 128487 (2020)

Reference to: MicroTime 200, TimeHarp 100/200