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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

1302 results found.


Enhanced cell adhesion on a bio-inspired hierarchically structured polyester modified with gelatin-methacrylate

Li P., Dou X., Feng C., Schönherr H.
Biomaterials Science, Vol.006, p.785-792 (2016)

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

The effect of a fluorophore photo-physics on the lipid vesivle diffusion coefficient studied by fluorescence correlation spectroscopy

Drabik D., Przybyło M., Sikorski A., Langner M.
Journal of Fluorescence, Vol.026, p.661-669 (2016)

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

Role of the inner shell architecture on quantum yield and blinking dynamics in core/multi-shell quantum dots

Bajwa P., Gao F., Nguyen A., Omogo B., Heyes C.D.
ChemPhysChem, Vol.017, p.731-740 (2016)

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

Probing the aggregation behavior of neat imidazolium-based alkyl sulfate (alkyl = ethyl, butyl, hexyl, and octyl) ionic liquids through time resolved florescence anisotropy and NMR and fluorescence correlation spectroscopy study

Majhi D., Pabbathi A., Sarkar M.
The Journal of Physical Chemistry B, Vol.120, p.193-205 (2016)

Reference to: MicroTime 200
Related to: FCS

Exploring interfacial events in gold-nanocluster-sensitized solar cells: insights into the effects of the cluster size and electrolyte on solar cell performance

Abbas M.A., Kim T.-Y., Lee S.U., Kang Y.S., Bang J.H.
Journal of the American Chemical Society, Vol.138, p.390-401 (2016)

Reference to: MicroTime 200

Crystal facet engineering of ZnO photoanode for the higher water splitting efficiency with proton transferable nafion film

Pawar A.U., Kim C.W., Kang M.J., Kang Y.S.
Nano Energy Vol.020, 156-167 (2016)

Reference to: MicroTime 200

Regular 'breathing' of a near-single-cycle light bullet in mid-IR filament

Chekalin S.V., Kompanets V.O., Kuznetsov A.V., Dormidonov A.E., Kandidov V.P.
Laser Physics Letters, Vol.013, 065401 (2016)

Reference to: MicroTime 200

New cytotoxic butyltin complexes with 2-sulfobenzoic acid: molecular interaction with lipid bilayers and DNA as well as in vitro anticancer activity

Pruchnik H., Kral T., Poradowski D., Pawlak A., Drynda A., Obmińska-Mrukowicz B., Hof M.
Chemico-Biological Interactions, Vol.243, p.107-118 (2016)

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

Hitchhiking nanoparticles: reversible coupling of lipid-based nanoparticles to cytotoxic T lymphocytes

Wayteck L., Dewitte H., De Backer L., Breckpot K., Demeester J., De Smedt S.C., Raemdonck K.
Biomaterials, Vol.077, p.243-254 (2016)

Reference to: MicroTime 200, SymPhoTime

Interaction mechanism for energy transfer from Ce to Tb ions in silica

Ahmed H.A.A.S., Chae W.S., Ntwaeaborwa O.M., Kroon R.E.
Physica B: Condensed Matter, Vol.480, p.100-104 (2016)

Reference to: MicroTime 200

Synthesis and characterization of near-infrared fluorescent and magnetic iron zero-valent nanoparticles

Pérez N.,m Ruiz-Rubio L., Vilas J.L., Rodríguez M., Martinez-Martinez V., León L.M.
Journal of Photochemistry and Photobiology A: Chemistry, Vol.315, p.1-7 (2016)

Reference to: MicroTime 200
Related to: FLIM

Time-resolved fluorescence anisotropy study of organic lead halide perovskite

Jiang J.Y., Wen X., Benda A., Sheng R., Ho-Baillie A.W.Y., Huang S., Huang F., Cheng Y.-B., Green M.A.
Solar Energy Materials and Solar Cells, Vol.151, p.102-112 (2016)

Reference to: MicroTime 200, PicoHarp 300

Mobile ion induced slow carrier dynamics in organic-inorganic perovskite CH3NH3PbBr3

Chen S., Wen X., Sheng R., Huang S., Deng X., Green M.A., Ho-Baillie A.
ACS Applied Materials & Interfaces, Vol.008, p.5351-5357 (2016)

Reference to: MicroTime 200

Plasmonic nanostructures based on block copolymer templates for efficient organic solar cells

Go S.J., Lee D.-E., Lee D.H., Chin B.D.
Journal of the Korean Physical Society, Vol.068, p.257-263 (2016)

Reference to: MicroTime 200, SymPhoTime

Comprehensive study on critival micellar concentrations of SDS in acetonitrile-water solvents

Šteflová J., Štefl M., Walz S., Knop M., Trapp O.
Electrophoresis, Vol.037, p.1287-1295 (2016)

Reference to: MicroTime 200, SymPhoTime

Hole transport layer free inorganic CsPbIBr2 perovskite solar cell by dual source thermal evaporation

Ma Q., Huang S., Wen X., Green M.A., Ho-Baillie A.W.Y.
Advanced Energy Materials, Vol.006, 1502202 (2016)

Reference to: MicroTime 200

Novel CdS hole-blocking layer for photostable perovskite solar cells

Hwang I., Yong K.
ACS Applied Materials & Interfaces, Vol.008, p.4226-4232 (2016)

Reference to: MicroTime 200

Fluorescence properties of perylene and pyrene dyes covalently inked to 6H-SiC(0001) and silicate surfaces

Bhowmick D.K., Stegemann L., Bartsch M., Strassert C.A., Zacharias H.
The Journal of Physical Chemistry C, Vol.120, p.3275-3288 (2016)

Reference to: MicroTime 200, SymPhoTime

Fast folding dynamics of an intermediate state in RNase H measured by single-molecule FRET

Stockmar F., Kobitski A.Y., Nienhaus G.U.
The Journal of Physical Chemistry B, Vol.120, p.641-649 (2016)

Reference to: MicroTime 200
Related to: FRET

Comprehensive description of blinking-dynamics regimes in single direct-band-gap silicon nanocrystals

Kůsová K., Pelant I., Humpolíčková J., Hof M.
Physical Review B, Vol.093, 035412 (2016)

Reference to: MicroTime 200

Photoluminescence characterisations of a dynamic aging process of organic–inorganic CH3NH3PbBr3 perovskite

Sheng R., Wen X., Huang S., Hao X., Chen S., Jiang Y., Deng X., Green M.A., Ho-Baillie A.W.Y.
Nanoscale, Vol.008, p.1926-1931 (2016)

Reference to: MicroTime 200

Time-resolved fluorescence anisotropy study of organic lead halide perovskite

Jiang Y., Wen X., Benda A., Sheng R., Ho-Baillie A.W.Y., Huang S., Huang F., Cheng Y.-B., Green M.A.
Solar Energy Materials and Solar Cells, Vol.151, p.102-112 (2016)

Reference to: MicroTime 200, PicoHarp 300

Single-molecule studies in live cells

Yu J.
Annual Review of Physical Chemistry, Vol.067, p.565-585 (2016)

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

Biophysical insights from temperature-dependent single-molecule Förster Resonance Energy Transfer

Holmstrom E.D., Nesbitt D.J.
Annual Review of Physical Chemistry, Vol.067, p.441-465 (2016)

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

Fluorescence lifetime-based sensing of polymersome leakage

Wang S., Chen Z.-R.
Photochemical & Photobiological Sciences, Vol.016, p.155-158 (2016)

Reference to: MicroTime 200, PicoHarp 300