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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

1178 results found.


Reasoning the photoluminescence blinking in CdSe−CdS heteronanostructures as stacking fault-based trap states

Thomas E.M., Pradhan N., Thomas K.G.
ACS Energy Letters, Vol.007, p.2856-2863 (2022)

Reference to: MicroTime 200


Understanding the interaction between inorganic and organic excitonic components of an inorganic-organic nanohybrid associate

Banerjee S., Chakraborty D., Preeyanka N., Sarkar M.
ChemNanoMat, Vol.008, e202200117 (2022)

Reference to: MicroTime 200, PicoHarp 300
Related to: FRET


Three-dimensional plasmonic nanocluster-driven light-matter interaction for photoluminescence enhancement and picomolar-level biosensing

Kim W.-G., Lee J.-M., Yang Y., Kim H., Deveraj V., Kim M., Jeong H., Choi E.-J., Yang J., Jang Y., Badloe T., Lee D., Rho J., Kim J.T., Oh J.-W.
Nano Letters, Vol.022, p.4702-4711 (2022)

Reference to: MicroTime 200


Probing polyvinylpyrrolidone-passivated graphene oxide nanoflakes as contrast agents inside tissue-like phantoms via multimodal confocal microscopy

Potara M., Suarasan S., Craciun A.-M., Focsan M., Hada A.-M., Astilean S.
Talanta, Vol.247, 123581 (2022)

Reference to: MicroTime 200


Preprocess dependence of optical properties of ensembles and single siphonaxanthin-containing major antenna from the marine green alga Codium fragile

Brotosudarmo T.H.P., Wittmann B., Seki S., Fujii R., Köhler J.
Scientific Reports, Vol.012, 8461 (2022)

Reference to: MicroTime 200, TimeHarp 260, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)


Multimodal investigation into the interaction of quinacrine with microcavity-supported lipid bilayers

Sarangi N.K., Prabhakaran A., Keyes T.E.
Langmuir, Vol.038, p.6411-6424 (2022)

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


BiVO4 quadrangular nanoprisms with highly exposed {101} facets for selective photocatalytic oxidation of benzylamine

Lv M., Tong F., Wang Z., Liu Y., Wang P., Cheng H., Dai Y., Zheng Z., Huang B.
Journal of Materials Chemistry A, Vol.010, p.19699-19709 (2022)

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


Photoswitching fingerprint analysis bypasses the 10-nm resolution barrier

Helmerich D.A., Beliu G., Taban D., Meub M., Streit M., Kuhlemann A., Doose S., Sauer M.
Nature Methods, Vol.019, p.986-994 (2022)

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


Wavelength-dependent optical response of single photosynthetic antenna complexes from siphonous green alga codium fragile

Brotosudarmo T.H.P., Wittmann B., Seki S., Fujii R., Köhler J.
The Journal of Physical Chemistry Letters, Vol.013, p.5226-5231 (2022)

Reference to: MicroTime 200, TimeHarp 260, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), PMA Series, SymPhoTime
Related to: FLIM


In-fibre second-harmonic generation with embedded two-dimensional materials

Ngo G.Q., Najafidehaghani E., Gan Z., Khazaee S., Siems M.P., George A., Schartner E.P., Nolte S., Ebendorff-Heidepriem H., Pertsch T., Tuniz A., Schmidt M.A., Peschel U., Turchanin A., Eilenberger F.
Nature Photonics (2022)

Reference to: MicroTime 200


Effect of particle interactions on the assemly of drying colloidal mixtures

Tinkler J.D., Scacchi A., Argaiz M., Tomovska R., Archer A.J., Willcock H., Martín-Fabiani I.
Langmuir, Vol.038, p.5361-5371 (2022)

Reference to: MicroTime 200, SymPhoTime


Plasmonic carbon nitride polymers to boost hydrogen generation

Tian D., Yin H., Liu L., Li B., Li J., Lou Z.
Advanced Sustainable Systems, Vol.006, 2200045 (2022)

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


Micromanufacturing of geometrically-and dimensionally-precise molecular single-crystal photonic micro-resonators via focused ion beam milling

Pradeep V.V., Chandrasekar R.
Optics (2022)

Reference to: MicroTime 200, PicoHarp 300, SymPhoTime
Related to: FLIM


Measuring photophysical transition rates with fluorescence correlation spectroscopy and antibunching

Sakhapov D., Gregor I., Karedla N., Enderlein J.
Chemical Physics (2022)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), HydraHarp 400, SymPhoTime
Related to: FCS


Multilayer strategy for photoelectrochemical hydrogen generation: new electrode architecture that alleviates multiple bottlenecks

Seenivasan S., Moon H., Kim D.-H.
Nano-Micro Letters, Vol.014, 78 (2022)

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


Facet-dependent CdS/Bi4TaO8Cl Z-scheme heterojunction for enhanced photocatalytic tetracycline hydrochloride degradation and the carrier separation mechanism study via single-particle spectroscopy

Zhu X., Miao H., Chen J., Zhu X., Yi J., Mo Z., Li H., Zheng Z., Huang B., Xu H.
Inorganic Chemistry Frontiers, Vol.009, p.2252-2263 (2022)

Reference to: MicroTime 200


Impact of molecule concentration, diffusion rates and surface passivation on single-molecule fluorescence studies in solution

Yukhnovets O., Höfig H., Bustorff N., Katranidis A., Fitter J.
Biomolecules, Vol.012, 468 (2022)

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


The Interaction of Hypericin with SARS-CoV-2 reveals a multimodal antiviral activity

Delcanale P., Uriati E., Mariangeli M., Mussini A., Moreno A., Lelli D., Cavanna L., Bianchini P., Diaspro A., Abbruzzetti S., Viappiani C.
ACS Applied Materials & Interfaces, Vol.014, p.14025-14032 (2022)

Reference to: MicroTime 200, SymPhoTime
Related to: FCS


Lifetime based axial contrast enable simple 3D-STED imaging

Ma Y., Macmillan A., Yang Y., Gaus K.
Methods and Applications in Fluorescence, Vol.010, (2022)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), HydraHarp 400, SymPhoTime, VisIR
Related to: FLIM, STED


Microwave-assisted metal-ion attachment for ex-situ zirconium doping into hematite for enhanced photoelectrochemical water splitting

Dhandole L.K., Anushkkaran P., Hwang J.B., Chae W.-S., Kumar M., Lee H.-H., Choi S.H., Jang J.S., Lee J.S.
Renewable Energy, Vol.189, p.694-703 (2022)

Reference to: MicroTime 200, PicoHarp 300


Merging porphyrins with gold nanorods: self assembly construct to high fluorescent polyelectrolyte microcapsules

Serra V.V., Serra S.G., Vallejo M.C.S., Paulo P.M.R., Moura N.M.M., Botequim D., Neves M.G.P.M.S., Costa S.M.B.
Nanomaterials, Vol.012, 872 (2022)

Reference to: MicroTime 200, TimeHarp 100/200
Related to: FLIM


Coral-like potassium and phosphorous doped graphitic carbon nitride structures with enhanced charge and mass transfer dynamics toward photocatalytic hydrogen peroxide production and microbial disinfection

Fattahimoghaddam H., Mahvelati-Shamsabadi T., Jeong C.-S., Lee B.-K.
Journal of Colloid and Interface Science, Vol.617, p.326-340 (2022)

Reference to: MicroTime 200, PicoHarp 300


Super-resolution imaging of the third dimension of the actin cytoskeleton using metal-induced energy transfer and micropatterning

Grandy C., Port F., Pfeil J., Gottschalk K.-E.
Proceedings of SPIE, Single Molecule Spectroscopy and Superresolution Imaging XV, 1196709 (2022)

Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), HydraHarp 400, SymPhoTime


Combining metal induced energy transfer and atomic force microscopy to probe the mechanoresponse of a focal adhesion

Port F., Grandy C., Pfeil J., Gottschalk K.-E.
Proceedings of SPIE, Single Molecule Spectroscopy and Superresolution Imaging XV, 119670A (2022)

Reference to: MicroTime 200, HydraHarp 400, SymPhoTime


Luminescent properties of carbon quantum dots synthesized by microplasma method

Tyutrin A.A., Wang R., Martynovich E.F.
Journal of Luminescence, Vol.246, 118806 (2022)

Reference to: MicroTime 200, TimeHarp 100/200, SymPhoTime