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Get Closer to the Truth

Piattaforma di microscopia confocale STELLARIS

  • Imaging di cellule vive

    Spostando la prospettiva dai singoli componenti per microscopio a una soluzione completa, Leica Microsystems integra microscopio, software per l'imaging LAS X, fotocamere e componenti dedicati di…
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  • Microscopia a super risoluzione STED e GSDIM (dSTORM)

    Leica Microsystems è pioniere nella microscopia a super risoluzione e lavora a stretto contatto con gli scienziati più importanti del settore. Leica Microsystems è l'unico fornitore di sistemi che…
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  • Ricerca sul cancro

    Il cancro è una malattia complessa ed eterogenea causata da cellule che hanno dei difetti nella regolazione della crescita. I cambiamenti genetici ed epigenetici in una cellula o in un gruppo di…
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  • Organoidi e colture cellulari in 3D

    Uno dei più entusiasmanti progressi recenti nella ricerca nel campo delle scienze della vita è lo sviluppo di sistemi di coltura cellulare in 3D, quali gli organoidi, gli sferoidi o i modelli di…
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  • Neuroscienze

    Stai lavorando per una migliore comprensione delle malattie neurodegenerative o stai studiando la funzionalità del sistema nervoso? Scopri in che modo le soluzioni di imaging di Leica Microsystems…
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  • Microscopia a fluorescenza

    La fluorescenza è uno dei fenomeni fisici più comunemente utilizzati nella microscopia biologica e analitica, soprattutto a causa della sua elevata sensibilità e specificità. Scopri come i microscopi…
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  • Fluorescence Lifetime Imaging

    La microscopia fluorescence lifetime imaging (FLIM) è una tecnica di imaging che sfrutta le proprietà intrinseche dei coloranti fluorescenti. Oltre ad avere uno spettro di emissione caratteristico,…
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  • [Translate to italian:] Leica Cell Biology

    Biologia cellulare

    Se la tua ricerca è incentrata sulla comprensione delle basi cellulari delle condizioni di salute e delle malattie umane, è fondamentale analizzare le cellule d’interesse con un dettaglio…
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  • Virology

    L’oggetto della tua ricerca si concentra su infezioni e malattie virali? Scopri in che modo puoi approfondire l’aspetto virologico utilizzando le soluzioni di imaging e la preparazione del campione di…
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  • Organismi modello nella ricerca

    Un organismo modello è una specie utilizzata dai ricercatori per studiare specifici processi biologici. Hanno caratteristiche genetiche simili a quelle umane e vengono normalmente impiegate in aree di…
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  • Science Lab Topic: Quantitative Imaging

    Adding Dimensions to Multiplex Molecular Imaging

    Molecular imaging of living specimens offers a means to draw upon the growing body of high-throughput molecular data to better understand the underlying cellular and molecular mechanisms of complex…
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  • Science Lab Topic: Super-Resolution

    Benefits of TauContrast to Image Complex Samples

    In this interview, Dr. Timo Zimmermann talks about his experience with the application of TauSense tools and their potential for the investigation of demanding samples such as thick samples or…
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  • Science Lab Topic: Confocal Microscopy

    A New World of Confocal Applications with the Next Generation White Light Lasers

    As biological questions get more complex, there is an increasing need to study multiple events simultaneously in the same specimen. When preparing the specimen for imaging experiments, this need is…
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  • Science Lab Topic: Confocal Microscopy

    Advanced Quantitative Fluorescence Microscopy to Probe the Molecular Dynamics of Viral Entry

    Viral entry into the host cell requires the coordination of many cellular and viral proteins in a precise order. Modern microscopy techniques are now allowing researchers to investigate these…
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  • Image courtesy of Dr. Stefan Finke, Friedrich-Loeffler- Institute, Riems, Germany.
    Science Lab Topic: THUNDER Imaging

    How Can Immunofluorescence Aid Virology Research?

    Modern virology research has become as crucial now as ever before due to the global COVID-19 pandemic. There are many powerful technologies and assays that virologists can apply to their research into…
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  • Science Lab Topic: Super-Resolution

    Time-resolved STED microscopy

    Introduced more than 30 years ago, stimulated emission depletion (STED) microscopy has raised to a standard and widely used method for imaging in the life sciences. Thanks to continuous technological…
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  • Science Lab Topic: Confocal Microscopy

    Utilizza LIGHTNING per ottenere il massimo delle informazioni dal tuo campione

    LIGHTNING è un processo di estrazione di informazioni completamente automatico, che funziona in modo adattivo, grazie al quale si possono apprezzare strutture e dettagli fini dei campioni altrimenti…
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  • Science Lab Topic: Confocal Microscopy

    Infection of the novel coronavirus SARS-CoV-2 can be blocked by a human monoclonal antibody

    Vaccines and targeted therapeutics for treatment of the respiratory disease COVID-19, caused by the coronavirus SARS-CoV-2, are currently lacking. Based on the results of this study, it was reported…
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  • Science Lab Topic: Confocal Microscopy

    Expanding the frontiers of confocal live cell imaging

    To address the specific challenges of live cell confocal imaging and help researchers get closer to the truth, Leica Microsystems has re-imagined confocal microscopy, designing its entirely new…
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  • Science Lab Topic: Confocal Microscopy

    Nanoscopy meets Lifetime: Introducing τ-STED

    τ-STED combines the optical signals from STED and the photophysical information from the fluorescence lifetime at unprecedented speeds. This approach to STED uses phasor analysis in a novel way.…
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  • Science Lab Topic: Confocal Microscopy

    Explore Innovative Techniques to Separate Fluorophores with Overlapping Spectra

    In this article we explore several strategies you can take to improve the separation of fluorophores and increase the number of fluorescent probes you can distinguish in your sample.
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  • Science Lab Topic: Confocal Microscopy

    STELLARIS White light lasers

    When it comes to choosing fluorescent probes for your multi-color experiments, you shouldn’t have to compromise. Now you can advance beyond conventional excitation sources that limit your fluorophore…
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  • Science Lab Topic: Confocal Microscopy

    TauSense Technolgy Imaging Tools

    Leica Microsystems’ TauSense technology is a set of imaging modes based on fluorescence lifetime. Found at the core of the STELLARIS confocal platform, it will revolutionize your imaging experiments.…
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  • Science Lab Topic: Confocal Microscopy

    The Power HyD detector family

    In STELLARIS, we have pushed the limits of our detector technology, so you can push the boundaries of your research. Our newly designed Power HyD family consists of three different type of detectors…
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  • Science Lab Topic: Confocal Microscopy

    How to Uncover Hidden Dimensions in Research with Lifetime Imaging

    Learn how fluorescence lifetime imaging adds information depth to your confocal experiments and reveals novel insights that are difficult or impossible to discover using conventional intensity-based…
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  • Science Lab Topic: Confocal Microscopy

    Learn how to Remove Autofluorescence from your Confocal Images

    Autofluorescence can significantly reduce what you can see in a confocal experiment. This article explores causes of autofluorescence as well as different ways to remove it, from simple media fixes to…
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  • Science Lab Topic: Quantitative Imaging

    What is FLIM - Fluorescence Lifetime Imaging?

    The fluorescence lifetime is a measure of how long a fluorophore remains on average in its excited state before returning to the ground state by emitting a fluorescence photon.
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