Weijian Zong
@weijianzong.bsky.social
Group leader at Kavli Institute for Systems Neuroscience. Neuro-photonics and microscopic developer.
Thank @kavlintnu.bsky.social, the research council of Norwayfor the continues support of our work! We will provide more useful tools like #mini2p to the neuroscience!
October 31, 2025 at 4:48 PM
Thank @kavlintnu.bsky.social, the research council of Norwayfor the continues support of our work! We will provide more useful tools like #mini2p to the neuroscience!
Big congratulations to you and Michael!!!
July 10, 2025 at 11:10 AM
Big congratulations to you and Michael!!!
Grateful to the brilliant students and collaborators pushing neurophotonics forward - and to Sainsbury Wellcome for the opportunity to share our work. Excited for what this mini scope will reveal next! 🚀
July 10, 2025 at 8:37 AM
Grateful to the brilliant students and collaborators pushing neurophotonics forward - and to Sainsbury Wellcome for the opportunity to share our work. Excited for what this mini scope will reveal next! 🚀
Opening new neuroscience horizons:
With this tool, we can study dendritic computation and network dynamics under naturalistic behavior: an essential step toward understanding the neural basis of cognition. 🌍🧠
With this tool, we can study dendritic computation and network dynamics under naturalistic behavior: an essential step toward understanding the neural basis of cognition. 🌍🧠
July 10, 2025 at 8:36 AM
Opening new neuroscience horizons:
With this tool, we can study dendritic computation and network dynamics under naturalistic behavior: an essential step toward understanding the neural basis of cognition. 🌍🧠
With this tool, we can study dendritic computation and network dynamics under naturalistic behavior: an essential step toward understanding the neural basis of cognition. 🌍🧠
Performance rivals desktops: ✨
Despite its size, our miniscope delivers resolution, speed, and field-of-view comparable to bench-top two photon microscopes.⚡📸
Despite its size, our miniscope delivers resolution, speed, and field-of-view comparable to bench-top two photon microscopes.⚡📸
July 10, 2025 at 8:36 AM
Performance rivals desktops: ✨
Despite its size, our miniscope delivers resolution, speed, and field-of-view comparable to bench-top two photon microscopes.⚡📸
Despite its size, our miniscope delivers resolution, speed, and field-of-view comparable to bench-top two photon microscopes.⚡📸
Seeing truly small structures: 👁️
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
July 10, 2025 at 8:36 AM
Seeing truly small structures: 👁️
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
Seeing truly small structures: 👁️
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
July 10, 2025 at 8:36 AM
Seeing truly small structures: 👁️
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
Thanks to innovations like hollow-core photonic fibers, we can now resolve activity in individual dendritic spines - not just cell bodies - even during movement. 🧩 🔍🧠
Freedom to behave: 🤸♀️
Traditional two-photon setups are bench-bound, head-fixed systems. Our mini scope weighs only ~2-3 g, allowing mice to explore, climb, and jump while we image calcium signals in real-time. 🐁📈
Traditional two-photon setups are bench-bound, head-fixed systems. Our mini scope weighs only ~2-3 g, allowing mice to explore, climb, and jump while we image calcium signals in real-time. 🐁📈
July 10, 2025 at 8:35 AM
Freedom to behave: 🤸♀️
Traditional two-photon setups are bench-bound, head-fixed systems. Our mini scope weighs only ~2-3 g, allowing mice to explore, climb, and jump while we image calcium signals in real-time. 🐁📈
Traditional two-photon setups are bench-bound, head-fixed systems. Our mini scope weighs only ~2-3 g, allowing mice to explore, climb, and jump while we image calcium signals in real-time. 🐁📈
Thanks for the invitation! It will be exciting!
July 6, 2025 at 12:14 PM
Thanks for the invitation! It will be exciting!
I would really love to join if there is any chance!
June 29, 2025 at 7:08 AM
I would really love to join if there is any chance!
Congratulations and good luck for your new career stage Ruben!
April 2, 2025 at 2:18 PM
Congratulations and good luck for your new career stage Ruben!
Yes!!! Finger crossed!
February 14, 2025 at 7:09 AM
Yes!!! Finger crossed!
Thanks for the re-post Ruben!
January 20, 2025 at 8:30 AM
Thanks for the re-post Ruben!
Thanks for your reply. It was exciting to hear that the long stock shift version is on the way. Keep us updated and I am looking forward to trying it!
December 29, 2024 at 8:36 PM
Thanks for your reply. It was exciting to hear that the long stock shift version is on the way. Keep us updated and I am looking forward to trying it!