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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8322 results found.
Radiative decay rate and branching fractions of MgF
Norrgard E., Chamorro Y., Cooksey C., Eckel S., Pilgram N., Rodriguez K., Yoon H., Pasteka L., Borschevsky A.
Atomic Physics (2023)
Reference to: MultiHarp 150
Identifying the active sites in unequal ironnitrogen single-atom catalysts
Huang L., Liu Q., Wu W., Gao G., Zheng X., Wang J., Dong S.
Nature Communications, Vol.014, 5594 (2023)
Reference to:
PicoHarp 300
Related to:
FCS
Measurement principles for quantum spectroscopy of molecular materials with entangled photons
Moretti L., Rojas.Gatjens E., Uboldi L., Tiede D.O., Kumar E.J., Trovatello C., Preda F., Perri A., Manzoni C., Cerullo G., Kandada A.R.S.
Journal of Chemical Physics, Vol.159, 084201 (2023)
Reference to: HydraHarp 400, TDA
Lattice engineering for stabilized black FAPbI3 perovskite single crystals for high-resolution x-ray imaging at the lowest dose
Chu D., Jia B., Liu N., Zhang Y., Li X., Feng J., Pi J., Yang Z., Zhao G., Liu Y., Liu S., Park N.-G.
Science Advanges, Vol.009, eadh2255 (2023)
Reference to: FluoTime 300, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), MicroTime 100
Visualising varnish removal for conservation of paintings by fluorescence lifetime imaging (FLIM)
Wilda C.B., Burnstock A., Suhling K., Della Rocca F.M., Henderson R.K., Nedbal J.
Heritage Science, Vol.011, 127 (2023)
Reference to:
SPADs
Related to:
FLIM, TRPL
Doubling the resolution of single-molecule localization microscopy with image scanning microscopy
Radmacher N., Nevskyi O., Gllea J.I., Thiele J.C., Gregor I., Rizzoli S.O., Enderlein J.
bioRxiv, preprint (2023)
Reference to:
MultiHarp 150, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), SymPhoTime
Related to:
FLIM
Multicolor lifetime imaging and its application to HIV-1 uptake
Starling T., Calon-Andres I., Iliopoulou M., Kraemer B., Loidolt-Krueger M., Williamson D.J., Padilla-Parra S.
Nature Communications, Vol.014, 4994 (2023)
Reference to:
MicroTime 200, MultiHarp 150, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), SPADs, SymPhoTime
Related to:
FLIM, Pulsed Interleaved Excitation (PIE), FRET
Polarization dynamics of solid-state quantum emitters
Kumar A., Samaner C., Cholsuk C., Matthes T., Paçal S., Oyun Y., Zand A., Chapman R.J., Saerens G., Grange R., Suwanna S., Ateş S., Vogl T.
Quantum Physics (2023)
Reference to: MicroTime 200
Hyperspectral time-resolved compressive sensing spectroscopy for monitoring cytochrome-c-oxidase and blood oxygenation
Li N.C., Ioussoufovitch S., Diop M.
Proceedings of SPIE, Optical Tomography and Spectroscopy of Tissue XV, 123760E (2023)
Reference to: PMA Series
Energy band alignment by solution-processed aluminum doping strategy toward record efficiency in pulsed laser-deposited kesterite thin-film solar cell
Wu T., Hu J., Chen S., Zheng Z., Cathelinaud M., Ma H., Su Z., Fan P., Zhang X., Liang G.
ACS Applied Materials Interfaces, Vol.015, p.14291-14303 (2023)
Reference to:
FluoTime 300
Related to:
TRPL
Biexciton-like Auger blinking in strongly confined CsPbBr3 perovskite quantum dots
Mi C., Atteberry M.L., Mapara V., Hidayatova L., Gee G.C., Furis M., Yip W.T., Weng B., Dong Y.
Journal of Physical Chemistry Letters, Vol.014, p.5466-5474 (2023)
Reference to: Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), HydraHarp 400, SPADs
Monitoring neoadjuvant chemotherapy through time domain diffuse optical spectroscopy: preliminary clinical results
Mule N., Maffeis G., Santangelo C., Cubeddu R., Pifferi A., Panizza P., Taroni P.
Proceedings of SPIE, Optical Tomography and Spectroscopy of Tissue XV, 123760L (2023)
Reference to: MultiHarp 150, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Ultrafast one-step deposition route to fabricate single-crystal CsPbX3 (X = Cl, Cl/Br, Br, and Br/I) photodetectors
Zhang l., Li X., Tian Y., Hao B., Han J., Chen H., Zou B., Du C.
Applied Materials & Interfaces, Vol.015, p.13270-13280 (2023)
Reference to: MicroTime 200
Multifunctional small molecule as buried interface passivator for efficient planar perovskite solar cells
Wu M., Duan Y., Yang L., You P., Li Z., Wang J., Zhou H., Yang S., Xu D., Zou H., Liu Z.
Advanced Functional Materials, Vol.033, 2300128 (2023)
Reference to: FluoTime 300
Band bending at CdTe solar cell contacts: correlatin electro-optical and x-ray photoelectron spectroscopy analyses of thin film solar cells
Kuciauskas D., Perkins C.L., Nardone M., Lee C., Mallick R., Xiong G.
Solar RRL, Vol.007, 2300073 (2023)
Reference to: PicoHarp 300
An innovative strategic route to the green synthesis of CsPbBr3 films on rigid and flexible substrates
Sirna L., Pellegrino A.L., Lo Presti F., Faini F., Grancini G., Bengasi G., Foti M., Malandrino G.
Applied Surface Science, Vol.622, 156916 (2023)
Reference to:
Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Related to:
TRPL
Correlative fluorescence and transmission electron microscopy assisted by 3D machine learning reveals thin nanodiamonds fluoresce brighter
Wen H., Kordahl D. Kuschnerus I.C., Reineck P., Macmillan A., Chang H.-C., Dwyer C., Chang S.L.Y.
ACS Nano, Vol.xxx, p.xxx-xxx (2023)
Reference to: TimeHarp 260
Open-shell diradical-sensitized electron transport layer for high-performance colloidal quantum dot solar cells
Fang S., Huang J., Tao R., Wei Q., Ding X., Yajima S., Chen Z., Zhu W., Liu C., Li Y., Yin N., Song L., Liu Y., Shi G., Wu H., Gao Y., Wen X., Chen Q., Shen Q., Li Y., Liu Z., Ma W.
Advanced Materials, Vol.035, 2212184 (2023)
Reference to: FluoTime 300
Design of SnO2 electron transport layer in perovskite solar cells to achieve 2000 h stability under 1 sun illumination and 85° C
Gil B., Yun A.J., Lim J., Cho J., Kim B., Ryu S., Kim J., Park B.
Advanced Materials Interfaves, Vol.010, 2202148 (2023)
Reference to: FluoTime 300
The saturation of the response to an electron beam of Ce- and Tb-doped GYAGG phosphors for indirect β-voltaics
Karpyuk P., Korzhik M., Fedorov A., Kamenskikh I., Komendo I., Kuznetsova D., Leksina E., Mechinsky V. Pustovarov V., Smyslova V., Retivov V.M., Talochka Y., Tavrunov D., Vasil'ev A.
Applied Science, Vol.013, 3323 (2023)
Reference to: FluoTime 200
Organic ammonium iodide salts as passivation for buried interface enables efficient and stable NiOx based pin perovskite solar cells
Lammar S., Van Gompel W., Lenaers S., Mertens M., Boyen H.-G., Desta D., Hadipour A., Lutsen L., Vanderzande D., Krishna A., Abdulraheem Y., Aernouts T., Poortmans J.
Journal of Materials Chemistry C, Vol.011, p.8146-8153 (2023)
Reference to: FluoTime 300
Excited state electronic structure and dynamics in diblock pi-conjugated oligomers
Schanze K.S., Gobeze H.B., Martinez D.
Journal of Photochemistry and Photobiology A: Chemistry, Vol.444, 114966 (2023)
Reference to: FluoTime 300, PicoHarp 300
24.96%-efficiency FACsPbI3 perovskite solar cells enabled by an asymmetric 1,3-Thiazole-2,4-Diammonium
Zhou H., Yang L., Duan Y., Wu M., Li Y., Xu D., Zou H., Wang J., Yang S., Liu Z.
Advanced Energy Materials, Vol.013, 2204372 (2023)
Reference to: FluoTime 300
Formation mechanism and structure-property relationships of carbon dots for applications in light-emitting devices
Javed N.
Dissertation Rutgers, The State University of New Jersey (2023)
Reference to: TimeHarp 260, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), FluoFit
Simultaneous improvement to performance and stability of perovskite solar cells through incorporation of imidazolium-based ionic liquid
Thambidurai M., Dewi H.A., Kanwat A., Periyal S.S., Jamaludin N.F., Bruno A., Mathews N., Dang C. Nguyen H.D.
Journal of Power Sources, Vol.564, 232874 (2023)
Reference to:
PicoHarp 300
Related to:
TRPL