#microscopy — Public Fediverse posts

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

One of the reasons why I love being a microscopist working in #immunology 💜🔬🎨 This beauty is a #microscopy image of human gingival tissue from a periodontitis patient we stained using our multiplex technique. One of those shots was chosen for the new #bmbf exhibition traveling through Germany, Austria and Poland via the MS Wissenschaft - a floating science center. Opening is tomorrow - Check it out!

#sciencemastodon #science

https://www.drfz.de/neuigkeiten/faszinierende-gewebelandschaften-auf-kreuzfahrt/
https://ms-wissenschaft.de/de/besuch/tour/

One of the reasons why I love being a microscopist working in #immunology 💜🔬🎨 This beauty is a #microscopy image of human gingival tissue from a periodontitis patient we stained using our multiplex technique. One of those shots was chosen for the new #bmbf exhibition traveling through Germany, Austria and Poland via the MS Wissenschaft - a floating science center. Opening is tomorrow - Check it out!

#sciencemastodon #science

https://www.drfz.de/neuigkeiten/faszinierende-gewebelandschaften-auf-kreuzfahrt/
https://ms-wissenschaft.de/de/besuch/tour/

One of the reasons why I love being a microscopist working in #immunology 💜🔬🎨 This beauty is a #microscopy image of human gingival tissue from a periodontitis patient we stained using our multiplex technique. One of those shots was chosen for the new #bmbf exhibition traveling through Germany, Austria and Poland via the MS Wissenschaft - a floating science center. Opening is tomorrow - Check it out!

#sciencemastodon #science

https://www.drfz.de/neuigkeiten/faszinierende-gewebelandschaften-auf-kreuzfahrt/
https://ms-wissenschaft.de/de/besuch/tour/

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

https://www.europesays.com/ie/464073/ Chemistry in Pictures: Glowing gassy gut microbes #bacteria #cows #Éire #GreenhouseGases #IE #Ireland #methane #Microscopy #organelles #ruminants #Science

Good day to you! It is the first day of May here in Copenhagen, it is Friday, and it is hot like summer. This means, it is a good day for #nakeddiefriday so without further ado, here it is.

This is one Zilog Z765APS, a floppy disk controller chip of 1984 vintage made in NMOS. This one is very similar to NEC uPD765A; I am not sure if Zilog licensed the maskwork. What I find particularly interesting about this one is a relatively huge microcode ROM on the left side of the die. Wouldn't it be interesting to learn what they needed so much code for?

Let's experiment a bit: how about you guys scroll around the die and post the snippets you found most interesting in the comments below? We can discuss later.

Full-res map for an in-depth look: http://infosecdj.net/map/zilog/z765aps/infosecdj_mz_nikpa40x_50p/

#electronics #retrocomputing #reverseengineering #microscopy

Good day to you! It is the first day of May here in Copenhagen, it is Friday, and it is hot like summer. This means, it is a good day for #nakeddiefriday so without further ado, here it is.

This is one Zilog Z765APS, a floppy disk controller chip of 1984 vintage made in NMOS. This one is very similar to NEC uPD765A; I am not sure if Zilog licensed the maskwork. What I find particularly interesting about this one is a relatively huge microcode ROM on the left side of the die. Wouldn't it be interesting to learn what they needed so much code for?

Let's experiment a bit: how about you guys scroll around the die and post the snippets you found most interesting in the comments below? We can discuss later.

Full-res map for an in-depth look: http://infosecdj.net/map/zilog/z765aps/infosecdj_mz_nikpa40x_50p/

#electronics #retrocomputing #reverseengineering #microscopy

Good day to you! It is the first day of May here in Copenhagen, it is Friday, and it is hot like summer. This means, it is a good day for #nakeddiefriday so without further ado, here it is.

This is one Zilog Z765APS, a floppy disk controller chip of 1984 vintage made in NMOS. This one is very similar to NEC uPD765A; I am not sure if Zilog licensed the maskwork. What I find particularly interesting about this one is a relatively huge microcode ROM on the left side of the die. Wouldn't it be interesting to learn what they needed so much code for?

Let's experiment a bit: how about you guys scroll around the die and post the snippets you found most interesting in the comments below? We can discuss later.

Full-res map for an in-depth look: http://infosecdj.net/map/zilog/z765aps/infosecdj_mz_nikpa40x_50p/

#electronics #retrocomputing #reverseengineering #microscopy

Good day to you! It is the first day of May here in Copenhagen, it is Friday, and it is hot like summer. This means, it is a good day for #nakeddiefriday so without further ado, here it is.

This is one Zilog Z765APS, a floppy disk controller chip of 1984 vintage made in NMOS. This one is very similar to NEC uPD765A; I am not sure if Zilog licensed the maskwork. What I find particularly interesting about this one is a relatively huge microcode ROM on the left side of the die. Wouldn't it be interesting to learn what they needed so much code for?

Let's experiment a bit: how about you guys scroll around the die and post the snippets you found most interesting in the comments below? We can discuss later.

Full-res map for an in-depth look: http://infosecdj.net/map/zilog/z765aps/infosecdj_mz_nikpa40x_50p/

#electronics #retrocomputing #reverseengineering #microscopy

Good day to you! It is the first day of May here in Copenhagen, it is Friday, and it is hot like summer. This means, it is a good day for #nakeddiefriday so without further ado, here it is.

This is one Zilog Z765APS, a floppy disk controller chip of 1984 vintage made in NMOS. This one is very similar to NEC uPD765A; I am not sure if Zilog licensed the maskwork. What I find particularly interesting about this one is a relatively huge microcode ROM on the left side of the die. Wouldn't it be interesting to learn what they needed so much code for?

Let's experiment a bit: how about you guys scroll around the die and post the snippets you found most interesting in the comments below? We can discuss later.

Full-res map for an in-depth look: http://infosecdj.net/map/zilog/z765aps/infosecdj_mz_nikpa40x_50p/

#electronics #retrocomputing #reverseengineering #microscopy

🧫 #AMR #PhD open @[email protected]! How does #Cdifficile protein "armour" help it resist antimicrobials? Join me and @[email protected] to find out using: 🔬 #Structuralbiology, #microbiology #microscopy #genetics 📅 Deadline 20 May 2026 #PhD #PhDLife Pls share! (UK home only)

C. difficile S-layer’s role in...

Real-time high-resolution imaging of live cells enabled by AI-enhanced microscopy

📰 Original title: AI-enhanced microscopy produces crisp, real-time video inside live cells

🤖 IA: It's not clickbait ✅
👥 Usuarios: It's not clickbait ✅

View full AI summary: https://killbait.com/en/real-time-high-resolution-imaging-of-live-cells-enabled-by-ai-enhanced-microscopy/?redirpost=db3239c9-33ca-45ea-9e68-58da9e39043b

#science #microscopy #ai #cellbiology

Real-time high-resolution imaging of live cells enabled by AI-enhanced microscopy

📰 Original title: AI-enhanced microscopy produces crisp, real-time video inside live cells

🤖 IA: It's not clickbait ✅
👥 Usuarios: It's not clickbait ✅

View full AI summary: https://killbait.com/en/real-time-high-resolution-imaging-of-live-cells-enabled-by-ai-enhanced-microscopy/?redirpost=db3239c9-33ca-45ea-9e68-58da9e39043b

#science #microscopy #ai #cellbiology

Real-time high-resolution imaging of live cells enabled by AI-enhanced microscopy

📰 Original title: AI-enhanced microscopy produces crisp, real-time video inside live cells

🤖 IA: It's not clickbait ✅
👥 Usuarios: It's not clickbait ✅

View full AI summary: https://killbait.com/en/real-time-high-resolution-imaging-of-live-cells-enabled-by-ai-enhanced-microscopy/?redirpost=db3239c9-33ca-45ea-9e68-58da9e39043b

#science #microscopy #ai #cellbiology

Real-time high-resolution imaging of live cells enabled by AI-enhanced microscopy

📰 Original title: AI-enhanced microscopy produces crisp, real-time video inside live cells

🤖 IA: It's not clickbait ✅
👥 Usuarios: It's not clickbait ✅

View full AI summary: https://killbait.com/en/real-time-high-resolution-imaging-of-live-cells-enabled-by-ai-enhanced-microscopy/?redirpost=db3239c9-33ca-45ea-9e68-58da9e39043b

#science #microscopy #ai #cellbiology

https://www.europesays.com/ie/457420/ Detailed images reveal DNA repair mechanism in cancer-related proteins #cancer #DNA #Éire #Electron #ElectronMicroscopy #Genes #IE #Ireland #MassSpectrometry #Microscopy #Mitochondria #Protein #Research #Science #Spectrometry #Tumor #Yeast

New instance, new #introduction

#science #physics
since 2021 working on
#fiberlinks #frequency #time #transfer #reference #quantum #metrology
before that on
#biophysics #raman #spectroscopy #microscopy #biofilm #bacteria #protein #microplastics

#programming & #computing
#python (#fortran #mathematica )
#linux (not quite but almost still a newbie)
#freesoftware

Other interests:
#plants #cats #sciencefiction #fantasy #reading #writing #audiobooks #asiandramas #unplugbigtech #diday