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.
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Searching for MicroTime 200
1310 results found.
Synthesis, photophysics, and solvatochromic studies of an aggregated-induced-emission luminogen useful in bioimaging
Espinar-Barranco L., Meazza M., Linares-Perez A., Rios R., Paredes J.M., Crovetto L.
Sensors, Vol.019, 4932 (2019)
Reference to: MicroTime 200, FluoTime 200, TimeHarp 100/200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), FluoFit
Exciton-driven chemical sensors based on excitation-dependent photoluminescent two-dimensional SnS
Jannat A., Haque F., Xu K., Zhou C., Zhang B.Y., Syed N., Mohiuddin M., Messalea K.A., Li X., Gras S.L., Wen X., Fei Z., Haque E., Walia S., Daeneke T., Zavabeti A., Ou J.Z.
ACS Applied Materials Intefaces, Vol.011, p.42462-42468 (2019)
Reference to: MicroTime 200
Long-distance ionic diffusion in cesium lead mixed halide perovskite induced by focused illumination
Chen W., Li W., Gan Z., Cheng Y.-B., Jia B., Wen X.
Chemistry of Materials, Vol.031, 9049-9056 (2019)
Reference to: MicroTime 200
Discriminating single base pair mismatches in DNA using glutathione-templated copper nanoclusters
Pramanik S., Khamari L., Nandi S., Mukherjee S.
The Journal of Physical Chemistry C, Vol.123, p.29047-29056 (2019)
Reference to: MicroTime 200, PicoHarp 300
Efficient way to assemble CdS nanorose-decorated CdSe-tetrakaidecahedron heterojunction photoanodes for high-photoelectrochemical performance
Mahadik M.A., Chung H.-S., Ryu H.I., Chae W.-S., Cho M., Jang J.S.
ACS Sustainable Chemistry & Engineering, Vol.007, p.19708-19719 (2019)
Reference to: MicroTime 200
The role of avalanche ionization in generation of defects in lithium fluoride crystals under the action of femtosecond laser pulses
Dresvyanskiy V.P., Kuznetsov A.V., Enkhbat S., Bukhtsooj O., Bobina N.S., Alekseev S.V., Losev V.F., Martynovich E.F.
Proceedings of SPIE, XIV International Conference on Pulsed Lasers and Laser Applications, 113222A (2019)
Reference to: MicroTime 200
Disordered RNA chaperones can enhance nucleic acid folding via local charge screening
Holmstrom E.D., Liu Z., Nettels D., Best R.B., Schuler B.
Nature Communications, Vol.010, 2543 (2019)
Reference to: MicroTime 200
A quantum dot-based FLIM glucose nanosensor
Ripoll C., Orte A., Paniza L., Ruedas-Rama M.J.
Sensors, Vol.019, 4992 (2019)
Reference to:
MicroTime 200, FluoTime 200
Related to:
FLIM
Proteoliposomes as energy transferring nanomaterials: enhancing the spectral range of light-harvesting proteins using lipid-linked chromophores
Hancock A.M., Meredith S.A., Connell S.D., Jeuken L.J.C., Adams P.G.
Nanoscale, Vol.011, p.16284-16292 (2019)
Reference to:
MicroTime 200
Related to:
FLIM, FRET
Tracking dynamic phase segregation in mixed‐halide perovskite single crystals under two‐photon scanning laser illumination
Chen W., Mao W., Bach U., Jia B., Wen X.
small methods, Vol.003, 1900273 (2019)
Reference to:
MicroTime 200, PicoHarp 300
Related to:
TRPL
Triggering the passivation effect of potassium doping in mixed-cation mixed-halide Perovskite by light illumination
Zheng F., Chen W., Bu T., Ghiggino K.P., Huang F., Cheng Y., Tapping P., Kee T.W., Jia B., Wen X.
Advanced Energy Materials, Vol.009, 1901016 (2019)
Reference to:
MicroTime 200, PicoHarp 300
Related to:
TRPL
Identification of N-linked glycans as specific mediators of neuronal uptake of acetylated α-synuclein
Birol M., Wojcik S.P., Miranker A.D., Rhoades E.
PLoS Biology, Vol.017, e3000318 (2019)
Reference to:
MicroTime 200
Related to:
FLIM, FCS, FRET
Depletion interactions modulate coupled folding and binding in crowded environments
Zosel F., Soranno A., Nettels D., Schuler B.
Biological Physics (2019)
Reference to: MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series)
Two-photon photoluminescence of a thin-film hybrid material based on CdSe(core)/ZnS/CdS/ZnS(multishell) semiconductor quantum dots
Dyagileva D.V., Krivenkov V.A., Samokhvalov P.S., Nabiev I., Rakovich Y.P.
Journal of Physics: Conference Series, Vol.1410, 012153 (2019)
Reference to: MicroTime 200, HydraHarp 400
Surface passivation of zinc ferrite nanorod photoanodes by spray-deposited silicon oxide layer for enhanced solar water splitting
Ma H., Mahadik M., Kim S.R., Wang M., Ryu H.I., Chung H.S., Chae W.S., Park H., Jang J.S.
Journal of the Taiwan Institute of Chemical Engineers, in press (2019)
Reference to: MicroTime 200
The in vivo mechanics of the magnetotactic backbone as revealed by correlative FLIM-FRET and STED microscopy
Günther E., Klauß A., Toro-Nahuelpan M., Schüler D., Hille C., Faivre D.
Scientific Reports, Vol.009, 19615 (2019)
Reference to:
MicroTime 200, Pulsed Diode Lasers (PDL Series, LDH-Series, LDH-FA Series), PicoHarp 300, SymPhoTime
Related to:
FLIM, STED, FRET
Structure engineered two-dimensional layered BiOI surfaces as a "dip photovatalyst" for photocatalytic reaction
Prasad M.D., Ghanashyan Krishna M., Batabyal S.K.
Crystal Growth & Design (2019)
Reference to: MicroTime 200
Independent tubulin binding and polymerization by the proline-rich region of tau is regulated by tau’s N-terminal domain
McKibben K.M., Rhoades E.
Journal of Biological Chemistry, in press (2019)
Reference to: MicroTime 200
Controlling the growth kinetics and optoelectronic properties of 2D/3D lead–tin perovskite heterojunctions
Ruggeri E., Anaya M., Gałkowski K., Delport G., Kosasih F.U., Abfalterer A., Mackowski S., Ducati C., Stranks S.D.
Advanced Materials, Vol.031, 1905247 (2019)
Reference to: MicroTime 200
Photoinactivation of dormant Mycobacterium smegmatis due to its endogenous porphyrins
Shleeva M.O., Savitsky A.P., Nikitushkin V.D., Solovyev I.D., Kazachkina N.I., Perevarov V.V., Kaprelyants A.S.
Applied Microbiology and Biotechnology, Vol.103, p.9687-9695 (2019)
Reference to: MicroTime 200, PicoHarp 300
A fluorinated polythiophene hole-transport material for efficient and stable perovskite solar cells
Jeong I., Jo J.W., Bae S., Son H.J., Ko M.J.
Dyes and Pigments, Vol.164, p.1-6 (2019)
Reference to: MicroTime 200
Energy transfer and multiple photoluminescence of LuNbO4 co-doped with Eu3+ and Tb3+
Im M.H., Kim Y.J.
Materials Research Bulletin, Vol.112, p.399-405 (2019)
Reference to: MicroTime 200, SymPhoTime
Electrostatically driven Fröster Resonance Energy Transfer between a fluorescent metal nanoparticle and J-aggregate in an inorganic-organic nanohybrid material
Agrawal A.K., Sahu P.K., Seth S., Sarkar M.
The Journal of Physical Chemistry C, Vol.123, p.3836-3847 (2019)
Reference to:
MicroTime 200, PicoHarp 300, SymPhoTime
Related to:
FRET
Photosensitizing single-site metal−organic framework enabling visible-light-driven CO2 reduction for syngas production
Liu M., Mu Y.-F., Yao S., Guo S., Guo X.-W., Zhang Z.-M., Lu T.-B.
Applied Catalysis B: Environmental, Vol.245, p.496-501 (2019)
Reference to: MicroTime 200
Probing colocalization of N-Ras and K-Ras4B lipoproteins in model biomembranes
Li L., Dwivedi M., Patra S., Erwin N., Möbitz S., Winter R.
ChemBioChem, Vol.020, p.1190-1195 (2019)
Reference to:
MicroTime 200
Related to:
FCS, Pulsed Interleaved Excitation (PIE), FRET