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PicoQuant - It's about time

Scientific References

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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5416 results found.


Quantifying protein oligomerization in living cells: a systematic comparison of fluorescent proteins

Dunsing V., Luckner M., Zühlke B., Petazzi R., Herrmann A., Chiantia S.
bioRxiv, (preprint) (2018)

Reference to: LSM Upgrade Kit, SPADs, SymPhoTime


Photoluminescence of CdSe/ZnS quantum dots in nematic liquid crystals in electric fields

Kurochkina M.A., Konshina E.A., Khmelevskaia D.
Beilstein Journal of Nanotechnology, Vol.009, p.1544-1549 (2018)

Reference to: MicroTime 100


Optical properties of pseudoisocyanine molecular clusters embedded in a nanoporous alumina

Anton A. Starovoytov A.A., Lepeshova O.I., Alexeeva N.O., Solovyev V.G., Razumova Y.A., Reznik I.A., Baranov M.A.
Proceedings of SPIE, Nanophotonics VII, 1067212 (2018)

Reference to: MicroTime 100


A highly luminescent porous metamaterial based on a mixture of gold and alloyed semiconductor nanoparticles

Kormilina T.K., Stepanidenko E.A., Cherevkov S.A., Dubavik A., Baranov M.A., Federov A.V., Baranov A.V., Gun'ko Y.K., Ushakova E.V.
Journal of Materials Chemistry C, Vol.006, p.5278-5285 (2018)

Reference to: MicroTime 100


Purcell effect in active diamond nanoantennas

Zalogina A.S., Savelev R.S., Ushakova E.V., Zograf G.P., Komissarenko F.E., Milichko V.A., Makarov S.V., Zuev D.A., Shadrivov I.V.
Nanoscale, Vol.010, p.8721-8727 (2018)

Reference to: MicroTime 100


A 256×256 45/65nm 3D-stacked SPAD-based direct TOF image sensor for LiDAR applications with optical polar modulation for up to 18.6dB interference suppression

Ximenes A.R., Padmanabhan P., Lee M.-J., Yamashita Y., Yaung D.N., Charbon E.
IEEE International Solid - State Circuits Conference - (ISSCC) (2018)

Reference to: SPADs, VisUV
Related to: LIDAR or ranging


Existence of multiple phases and defect states of SnS absorber and its detrimental effect on efficiency of SnS solar cell

Rana T.R., Kim S.Y., Kim J.H.
Current Applied Physics, Vol.018, p.663-666 (2018)

Reference to: MicroTime 100


Quantum dots based on Indium Phosphide (InP): the effect of chemical modifications of the organic shell on interaction with cultured cells of various origins

Litvinov I.K. , Belyaeva T.N., Salova A.V., Aksenov N.D., Leontieva E.A., Orlova A.O., Kornilova E.S.
Cell and Tissue Biology, Vol.012, p.135-145 (2018)

Reference to: MicroTime 100


Label-free monitoring of ambient oxygenation and redox conditions using the photodynamics of flavin compounds and transient state (TRAST) spectroscopy

Tornmalm J., Widengren J.
Methods, Vol.140-141, p.178-187 (2018)

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


Fluorescence lifetime correlation spectroscopy: basics and applications

Ghosh A., Karedla N., Thiele J.C., Gregor I., Enderlein J.
Methods, Vol.140-141, p.32-39 (2018)

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


Toward dynamic structural biology: two decades of single-molecule Förster resonance energy transfer

Lerner E., Cordes T., Ingargiola A., Alhadid Y., Chung S.Y.
Science, Vol.359, eaan1133 (2018)

Reference to: MicroTime 200
Related to: FRET, Single Molecule Detection


Widefield high frame rate single-photon SPAD imagers for SPIM-FCS

Buchholz J., Krieger J., Bruschini C., Burri S., Ardelean A., Charbon E., Langowski J.
Biophysical Journal, Vol.114, p.2455-2464 (2018)

Reference to: SPADs
Related to: FCS


A novel method to evaluate ribosomal performance in cell-free protein synthesis systems

Kempf N., Remes C., Ledesch R., Züchner T., Höfig H., Ritter I., Katranidis A., Fitter J.
Scientific Reports, Vol.007, 46753 (2017)

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


Nanoparticle discrimination based on wavelength and lifetime-multiplexed cathodoluminescence microscopy

Garming M.W.H., Weppelman I.G.C., de Boer P., Martínez F.P., Schirhagl R., Hoogenboom J.P., Moerland R.J.
Nanoscale, Vol.009, p.12727-12734 (2017)

Reference to: PicoHarp 300, SPADs


Studies of the micro-bunching instability in multi-bunch operation at the anka storage ring

Brosi M., Blomley E., Brüdermann E., Caselle M., Kehrer B., Kopmann A., Müller A.-S., Rota L., Schedler M., Schuh M., Schwarz M., Schönfeld P., Steinmann J., Weber M.
Proceedings of IPAC- Thoba1, Conference C17-05-14 (2017)

Reference to: PicoHarp 300
Related to: Bunch purity


A Cd-reduced hybrid buffer layer of CdS/Zn(O,S) for environmentally friendly CIGS solar cells

Rana T.R., Kim S.Y., Kim J.H., Kim K., Yun J.H.
Sustainable Energy & Fuels, Vol.001, p.1981-1990 (2017)

Reference to: FluoTime 300, MicroTime 100


Multispot single-molecule FRET: highthroughput analysis of freely diffusing molecules

Ingargiola A., Lerner E., Chung S.Y., Panzeri F., Gulinatti A., Rech I., Ghioni M., Weiss S., Michalet X.
PLoS ONE, Vol.012, e0175766 (2017)

Reference to: SPADs
Related to: FRET, Single Molecule Detection


Application of laser micro-irradiation for examination of single and double strand break repain in mammalian cells

Holton N.W., Andrews J.F., Gassman N.R.
Journal of Visualized Experiments, Vol.127, e56265 (2017)

Reference to: VisUV


Novel phosphorescent Mn-doped ZnS quantum dots as a probe for the detection of L-tyrosine in human urine

Deng P., Lu L.-Q., Tan T., JJin Y., Fan X.-Z., Cao W.-C., Tian X.-K.
Analytical Methods, Vol.009, p.287-293 (2017)

Reference to: FluoTime 300


Polymorphs of a diarylethene that exhibits strong emission and direct visualization of polymorphic phase transition process by fluorescence color change

Kitagawa D., Nakahama T., Mutoh K., Kobayashi Y., Abe J., Sotome H., Ito S., Miyasaka H., Kobatake S.
Dyes and Pigments, Vol.139, p.233-238 (2017)

Reference to: PicoHarp 300


Thiophene-functionalized hybrid perovskite microrods and thei application in photodetector devices for investigating charge transport through interfaces in particle-based materials

Kollek T., Wurmbrand D., Birkhold S.T., Zimmermann E., Kalb J., Schmidt-Mende L., Polarz S.
ACS Applied Materials & Interfaces, Vol.009, p.1077-1085 (2017)

Reference to: FluoTime 300
Related to: TRPL


Pepsin diffusivity in whey protein gels and its effect on gastric digestion

Luo Q., Borsch J.W., Westphal A.H., Boom R.M., Janssen A.E.M.
Food Hydrocolloids, Vol.0665, p.318-325 (2017)

Reference to: PicoHarp 300
Related to: FCS


Quantum dots use both LUMO and surface trap electrons in photoreduction process

Darżynkiewicz Z.M., Pędziwiatr M., Grzyb J.
Journal of Luminescence, Vol.183, p.401-409 (2017)

Reference to: FluoTime 300, FluoFit


Type-I to Type-II transformation of hybrid quantum nanostructures

Chen H.-A., Lin W.-H., Chang C.-Y., Chang S.-W., Shih M.-H., Lin S.-Y.
IEEE Journal of Selected Topics in Quantum Electronics, Vol.023, 1900407 (2017)

Reference to: PicoHarp 300
Related to: TRPL


Single-molecule FRET measurements in additive-enriched aqueous solutions

Kempe D., Cerminara M., Poblete S., Schöne A., Gabba M., Fitter J.
analytical chemistry, Vol.089, p.694-702 (2017)

Reference to: MicroTime 200
Related to: FRET, Single Molecule Detection