Claudio Bruschini
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Explore the profile of Claudio Bruschini including associated specialties, affiliations and a list of published articles.
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37
Citations
339
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Recent Articles
1.
Gentner C, Burri S, Charbon E, Bruschini C, de Aguiar H
Opt Lett
. 2024 Nov;
49(22):6573-6576.
PMID: 39546722
Spontaneous Raman microscopy is well-known for its remarkable chemical contrast yet suffers from slow acquisition speeds. Recently, the compressive Raman microspectroscopy framework has shown that a significant speed advantage is...
2.
Pandey V, Erbas I, Michalet X, Ulku A, Bruschini C, Charbon E, et al.
Opt Lett
. 2024 Nov;
49(22):6457-6460.
PMID: 39546693
The acquisition of the time of flight (ToF) of photons has found numerous applications in the biomedical field. Over the last decades, a few strategies have been proposed to deconvolve...
3.
Karaca U, Kizilkan E, Bruschini C, Charbon E
Sci Rep
. 2024 Nov;
14(1):27118.
PMID: 39511341
Designing SPADs with high sensitivity in a wide wavelength range is crucial since the applications utilizing SPAD-based sensors target different parts of the spectrum. Here, we introduce a novel technique...
4.
Fathi F, Mazdeyasna S, Singh D, Huang C, Mohtasebi M, Liu X, et al.
IEEE Trans Med Imaging
. 2024 Oct;
PP.
PMID: 39446549
To address many of the deficiencies in optical neuroimaging technologies, such as poor tempo-spatial resolution, low penetration depth, contact-based measurement, and time-consuming image reconstruction, a novel, noncontact, portable, time-resolved laser...
5.
Ma Y, Park J, Huang L, Sen C, Burri S, Bruschini C, et al.
Proc Natl Acad Sci U S A
. 2024 Sep;
121(40):e2402556121.
PMID: 39320920
Fluorescence lifetime imaging microscopy (FLIM) is a powerful imaging technique that enables the visualization of biological samples at the molecular level by measuring the fluorescence decay rate of fluorescent probes....
6.
Franks M, Dieminger T, Kaneyasu K, Sgalaberna D, Bruschini C, Charbon E, et al.
Eur Phys J C Part Fields
. 2024 Jul;
84(2):202.
PMID: 39050377
Scintillating fibre detectors combine sub-mm resolution particle tracking, precise measurements of the particle stopping power and sub-ns time resolution. Typically, fibres are read out with silicon photomultipliers (SiPM). Hence, if...
7.
Lin Y, Mos P, Ardelean A, Bruschini C, Charbon E
Sci Rep
. 2024 Feb;
14(1):3286.
PMID: 38331957
Fluorescence lifetime imaging (FLI) has been receiving increased attention in recent years as a powerful diagnostic technique in biological and medical research. However, existing FLI systems often suffer from a...
8.
Petusseau A, Streeter S, Ulku A, Feng Y, Samkoe K, Bruschini C, et al.
J Biomed Opt
. 2024 Jan;
29(1):016004.
PMID: 38235320
Significance: Fluorescence guidance is used clinically by surgeons to visualize anatomical and/or physiological phenomena in the surgical field that are difficult or impossible to detect by the naked eye. Such...
9.
Milanese T, Bruschini C, Burri S, Bernasconi E, Ulku A, Charbon E
Opt Express
. 2024 Jan;
31(26):44295-44314.
PMID: 38178504
We report on LinoSPAD2, a single-photon camera system, comprising a 512×1 single-photon avalanche diode (SPAD) front-end and one or two FPGA-based back-ends. Digital signals generated by the SPADs are processed...
10.
Strauss M, Shayeghi A, Mauser M, Geyer P, Kostersitz T, Salapa J, et al.
Sci Adv
. 2023 Dec;
9(48):eadj2801.
PMID: 38039360
The analysis of proteins in the gas phase benefits from detectors that exhibit high efficiency and precise spatial resolution. Although modern secondary electron multipliers already address numerous analytical requirements, additional...