Bibliography
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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8784 results found.
Photostability and photoinduced processes in CuInS2/ZnS quantum dots and their hybrid structures with multilayer graphene nanoribbons
Reznik I.A., Kurshanov D.A., Dubovik A.Yu., Baranov M.A., Moshkalev S.A., Orlova A.O., Baranov A.V.
Optics and Spectroscopy, Vol.128, p.1901-1909 (2020)
Reference to: MicroTime 100
MAPbBr3 single crystal based metal-semiconductor-metal photodetector enhanced by localized surface plasmon
Zhang Z., Chen K., Xia W., Zuo Z.
Materials Research Express, Vol.007, 125902 (2020)
Reference to: Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Crosslinking of Streptavidin-biotinylated bovine serum albumin studied with fluorescence correlation spectroscopy
Lee S., Kim H.
Bulletin of the Korean Chemical Society, Vol.042, p.80-86 (2020)
Reference to:
TimeHarp 260, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), SymPhoTime
Related to:
FCS
Exciton-trion dynamics of a single molecule in a radio-frequency cavity
Doležal J., Canola S., Merino P., Švec M.
Atomic and Molecular Clusters (2020)
Reference to: PicoHarp 300
Fluorescence properties of self assembled colloidal supraparticles from CdSe/CdS/ZnS nanocrystals
Blondot V., Bogicevic A., Coste A., Arnold C., Buil S., Quélin X., Pons T., Lequeux N., Hermier,. J.-P.
New Journal of Physics, Vol.022, 113026 (2020)
Reference to: PicoHarp 300
Strong visible-light emission in annealed poly (acrylic acid)
Tarekegne A.T., Janting J., Ou H.
Optical Materials Express, Vol.010, p.3424-3434 (2020)
Reference to:
PMA Series
Related to:
TRPL
Dansyl-labelled Ag@ SiO2 core-shell nanostructures - synthesis, characterization, and metal-enhanced fluorescence
Szczepańska E., Synak A., Bojarski P., Niedziałkowski P., Wcisło A., Ossowski T., Grobelna B.
Materials, Vol.013, 5168 (2020)
Reference to: TimeHarp 100/200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), FluoFit
Halide homogenization for high-performance blue perovskite electroluminescence
Cheng L., Yi C., Tong Y., Zhu L., Kusch G., Wang X., Wang Xi., Jiang T., Zhang H., Zhang J., Xue C., Chen H.
Research, Vol.2020, ID 9017871 (2020)
Reference to: TimeHarp 260
Simple acridan-based multi-resonance structures enable highly-efficient narrowband green TADF electroluminescence
Jiang P., Zhan L., Cao X., Lv X., Gong S., Zhou C., Huang Z., Ni F., Zou Y., Yang C.
ChemRxiv, preprint (2020)
Reference to: FluoTime 300
Mid-infrared quantum optics in silicon
Rosenfeld L.M., Sulway D.A., Sinclair G.F., Anant V., Thompson M.G., Rarity J.G., Solverstone J.W.
Optics Express, Vol.028, p.37092-37102 (2020)
Reference to: PicoHarp 300
Two-dimensional layers of colloidal CdTe quantum dots: assembly, optical properties, and vibroelectronic coupling
Noblet T., Boujday S., Méthivier C., Erard M., Hottechamps J., Busson B., Humbert C.
The Journal of Physical Chemistry C, Vol.124, p.25873-25883 (2020)
Reference to: Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), PicoHarp 300, SymPhoTime
Phosphorylation-dependent conformations of the disordered carboxyl-terminus domain in the epidermal growth factor receptor
Regmi R., Srinivasan S., Latham A.P., Kukshal V., Cui W., Zhang B., Bose R., Schlau-Cohen G.S.
The Journal of Physical Chemistry Letters, Vol.023, p.10037-10044 (2020)
Reference to: PicoHarp 300
Suppressing π–π stacking interactions for enhanced solid-state emission of flat aromatic molecules via edge functionalization with picket-fence-type groups
Cho H.J., Kim S.W., Kim S., Lee S:, Lee J., Cho Y., Lee Y., Lee T.-W., Shin H.-J., Song C.
Journal of Materials Chemistry C, Vol.008, p.17289-17296 (2020)
Reference to: FluoTime 300, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Experimental demonstration of the near-quantum optimal receiver
Jabir M.V., Burenkov I.A., Annafianto N.F.R., Battou A., Polyakov S.V.
OSA Continuum, Vol.003, p.3324-3331 (2020)
Reference to: SPADs
Direct observation of the particle exchange phase of photons
Tschernig K., Müller C., Smoor M., Kroh T., Wolters J., Benson O., Busch K., Pérez-Leija A.
Quantum Physics (2020)
Reference to: MultiHarp 150
Temperature effects on light yield and pulse shape discrimination capability of siloxane based scintillators
Carturan S.M., Pino F., Fontana C.L., Moretto S., Zanazzi E., Raggio R., Raniero W., Quaranta A.
The European Physical Journal C, Vol.080, 1057 (2020)
Reference to: PicoHarp 300
Highly efficient thermally co-evaporated perovskite solar cells and mini-modules
Li J., Wang H., Chin X.Y., Dewi H.A., Vergeer K., Goh T.W., Lim J.W.M., Lew J.H., Loh K.P., Soci C., Sum T.C., Bolink H.J., Mathews N., Mhaisalkar S., Bruno A.
Joule, Vol.004, p.1035-1053 (2020)
Reference to: PicoHarp 300
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
Shear sensor mechano-signaling determines tendon stiffness and human jumping performance
Passini F.S., Jaeger P.K., Saab A.S., Hanlon S., Arlt M., Ferrari K.D., Chittim N., Haenni D., Caprara S., Bollhalder M., Horvath A., Goetschi T., Ma S., Passini-Tall B., Fucentese S., Blache U., Silvan U., Weber B., Silbernagel K.G., Snedeker J.G.
Research Square, preprint (2020)
Reference to: HydraHarp 400, SymPhoTime
Measurement of the radiation level dose to patient from fluoroscopy device during cardiac catheterization
Naji L., Zwyea S., Raheem A.
Journal of Techniques, Vol.002, p.E35-E41 (2020)
Reference to: FluoTime 300
Tuning silica nanophotonics based on fluorescence resonance energy transfer for targeted non-classical light delivery applications
Salinas C., Amé M., Bracamonte A.G.
Journal of Nanophotonics, Vol.014, 046007 (2020)
Reference to: FluoTime 200
Dithered depth imaging
Rapp J., Dawson R.M.A., Goyal V.K.
Optics Express, Vol. 028, p. 35143-35157 (2020)
Reference to: Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), HydraHarp 400, SPADs
Nonlinear refraction in colloidal silver sulfide quantum dots
Zvyagin A.I., Chevychelova T.A., Grevtseva I.G., Smirnov M.S., Selyukov A.S., Ovchinnikov O.V., Ganeev R.A.
Journal of Russian Laser Research, Vol.041, p.670-680 (2020)
Reference to: PicoHarp 300
ANS fluorescence: potential to discriminate hydrophobic sites of protein in solid states
Guliyeva A., Gasymov O.K.
Biochemistry and Biophysics Reports, Vol.024, 100843 (2020)
Reference to: FluoTime 300
Real-time non-line-of-sight imagingn of dynamic scenes
Nam J.H., Brandt E., Bauer S., Liu X., Sifakis E., Velten A.
Computer Vision and Pattern Recognition (2020)
Reference to: HydraHarp 400, SPADs