1/3 Your body continuously emits light billions of times too faint for your eyes to detect—revealing oxidative stress in real time without a single needle. #academicsky #biophotonics
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#Biophotonics
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1/3 Your body is 60% water, and that water broadcasts a unique terahertz signature—revealing cancerous tissue without a single needle. #academicsky #biophotonics
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1/5 Biophoton emission rates span 9 orders of magnitude across biological tissues, yet coherent properties persist from bacteria to human cells. #academicsky #biophotonics
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1/3 Biophoton intensity is often higher inside cells than outside—a paradoxical finding since we only detect this 'ultra-weak' emission externally. #academicsky #biophotonics
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What if the light emitted by your mitochondria could directly influence your brain's electrical activity? Could biophotons be the missing link in cellular energy signaling? #Biophotonics #Microtubules #academicsky
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What other biological processes might be influenced by biophoton communication? Could we harness this for medical applications? #Biophotonics #academicsky
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Biophotons—ultra-weak light emitted by cells—may form a hidden communication network. Could this light-based signaling guide tissue development and repair? #Biophotonics #academicsky
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Volodyaev et al. (2023) review evidence that biophotons may synchronize cellular activities. #Biophotonics #academicsky
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[2023 STUDY] Biophotons emitted by cells can synchronize across tissues, acting like a hidden light‑based communication network. Could this ultra‑weak photon signaling coordinate development or stress responses? #academicsky #Biophotonics
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[2023 STUDY] Biophotons may enable cellular communication. How does this influence development? https://doi.org/10.1007/978-3-031-39078-4 #Biophotonics #academicsky #Biophotonics #academicsky
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Biophotons—ultra-weak light emitted by cells—may act as cellular walkie-talkies. How might this photon-based communication influence tissue development? #Biophotonics #academicsky #Biophotonics #academicsky
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Can dielectric spectroscopy read biophoton cellular signatures? Kučera et al. (2015) https://doi.org/10.2174/1568026615666150225103105 How might this coupling enhance diagnostics? #DielectricSpectroscopy #Biophotonics #academicsky #DielectricSpectroscopy #Biophotonics #academicsky
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La caracterización biológica está entrando en una nueva etapa: integrar fotónica avanzada, análisis cuantitativo e inteligencia artificial para observar sistemas vivos mientras cambian. Perspective en Frontiers in Photonics, con participación del #CFATA
#Biophotonics #Science
doi.org/10.3389/fpho...
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Still time to register for Malte's discussion with the Optica editors on #biophotonics, #microlasers and organic #electronics (this week Friday).
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📣 CSB Reports is now a Science Partner Journal
🔗 Press release: www.eurekalert.org/news-release...
✅ We continue to use Editorial Manager with the same link, same login and submission process: www.editorialmanager.com/csbr
#OpenAccess #Biophysics #SmartHospital #Nano#QuantumBiology #Biophotonics
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We have a new doctor in-house!
👏 Join us in congratulating Dr Hui Ma, who successfully defended her thesis titled ‘Illumination Light Manipulation and Engineering for Sensitive Detection’.
This research was funded by @researchireland.ie.
#Biophotonics #ResearchExcellence
@ucc.ie
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CSBJ is now a Science Partner Journal
📣 CSBJ is now a Science Partner Journal
🔗 Press release: www.eurekalert.org/news-release...
✅ We continue to use Editorial Manager with the same link, same login and submission process: www.editorialmanager.com/csbj
#OpenAccess #Biophysics #SmartHospital #Nanoscience #QuantumBiology #Biophotonics
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Congrats to Guosong Hong, a/prof @stanfordbrain.bsky.social, on receiving the inaugural #BiophotonicsDiscovery Impact of the Year Award!
Hong is honored for achieving optical transparency in live animals via absorbing dyes, a transformative advance in #biophotonics. 💡
spie.org/news/stanfor...
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Excited to see everyone at BiOS 2026 starting tomorrow! 🌟 The #biophotonics community always brings great energy, and we can’t wait to connect with researchers and innovators pushing the boundaries of optical imaging and photonics-enabled healthcare. See you there! #SPIEBiOS @spie.org
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👆 ✨ 👇
cauda pavonis
shake your splendiferous fan
shine in full feather
#alchemy #science
#haiku #senryu
#biophotonics
#biology
🦚✨
🫴
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Two people stand facing each other, smiling, behind a lab bench.
Jürgen Popp: The 2026 SPIE Biophotonics Innovator Award
For contributions to the clinical translation of Raman spectroscopy, enabling real-time, label-free diagnostics in oncology and infectious disease, and advancing #biophotonics. @leibnizipht.bsky.social
spie.org/news/jurgen-...
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Hamamatsu is excited to be returning to SPIE BiOS 2026! Join us to connect and see how our technologies drive innovation in healthcare. More info: https://ow.ly/repT50XKnfp
#SPIEBiOS #Biophotonics #MedicalPhotonics #OpticalImaging #QuantumBiophotonics #PhotonicsInnovation
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A three panel figure showing microlaser characteristics during dynamic compression by an atomic force microscope. (a) Lasing spectra acquired during a push and release experiment, where the force applied by the AFM onto the microlaser is linearly increased from 0 nN to 7 nN and then released back to 0 nN. The spectra are normalized and vertically offset to show the shift and broadening of the lasing modes. (b) Fitted center position of the lasing modes labelled in (a), plotted over the time of the experiment. Two time points right after the microlaser made contact with the beaded tip of the AFM are excluded from the plot due to strong mode splitting. (c) Fitted FWHM (symbols, left axis) of the 4 laser modes shown in (b) and the measured applied force (pink solid line, right axis) as function of time. The resolution limit of the spectrometer is about 50 pm.
Very happy to finalize a few projects after a busy year, starting with a pre-print of Melisa's work on #flexible #microlasers made from #elastomers! A great material to prepare soft microlasers to measure biological #forces. #biophotonics #biosensing arxiv.org/abs/2512.22707
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New in Advanced Science: Brillouin–Raman microscopy on-a-chip reveals how mechanical stress rewires breast tumor spheroids—boosting ATF3 and invasion. New tool for cancer mechanobiology.
🔗 doi.org/10.1002/advs...
#cancer #mechanobiology #biophotonics @wileylifesci.bsky.social @lab-scita.bsky.social
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Yes, living organisms glow! This tiny natural light can reveal oxidation and cellular health. Our review shows how.
Paper: www.sciencedirect.com/science/article/abs/pii/...
#bioluminescence #science #oxidation #biophotonics #coolscience #biology
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Yes, living organisms glow! This tiny natural light can reveal oxidation and cellular health. Our review shows how.
Paper: www.sciencedirect.com/science/article/abs/pii/...
#bioluminescence #science #oxidation #biophotonics #coolscience #biology
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Plants glow—very faintly, but measurably. Early photomultiplier research revealed this ultra-weak light. Read the classic study: https://doi.org/10.1007/BF02820374
#Bioluminescence #ScienceHistory #Biophotonics #PlantGlow
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Your skin gives off a tiny natural glow — and it reveals your oxidative stress levels. Our new research shows how we can actually image it. Paper link:https://doi.org/10.1021/acs.analchem.3c01566
#biophotonics #oxidativestress #chemiluminescence #science
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Two people are sitting at a table in a library-like setting with books in the background. One individual is wearing a red blazer, and the other a gray blazer. They are facing each other, engaging in a conversation.
Dr. Anita Mahadevan-Jansen has illuminated the path of #biophotonics, from pioneering infrared diagnostics to advancing neurosurgical tools. Her translational work bridges #optics & medicine, shaping light-based healthcare.
Watch the #BiophotonicsDisovery conversation: https://bit.ly/3LwRFnQ
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