Marie Curie fellow @Hofkenslab, KU Leuven | Visiting researcher @MaxPlanckInstitute, Mainz, @Tokyo Inst. Tech | Alumnus @LundUniversity, @HydUniv
Sudipta Seth
From 💩 to 🔬 brilliance – classic Prof. Hofkens!
Incredible time at #ICP2025. Engaging talks, deep photochemistry, the best poster @DebroyeG, and plenty of laughs. Science at its most creative and collaborative!
#Photochemistry #Photophysics #HofkensLab #ScienceWithImpact
Whether you are an experienced researcher or just starting your PhD journey, if you are curious about superlattices, this one is for you!
Happy to have contributed as a coauthor alongside an outstanding team. @hofkenslab.bsky.social
pubs.rsc.org/en/content/a...
Second Multiplane microscope for 3D imaging coming soon.
#fastcomet #colloidalmemory #eic_pathfinder
@hofkenslab.bsky.social
It has been a very engaging #S25MRS so far. Delivered two talks on - inoperando microscale solar cell imaging.
Caught up with old friends, made many new!
Represented @hofkenslab.bsky.social @kuleuvenuniversity.bsky.social
#perovskite #microscopy #MRS
Sudipta Seth
Sudipta reporting our progress on FWO project Perovskope at APC 2025 in Kochi, india. @fwovlaanderen.bsky.social @sudiptaseth.bsky.social
#imaging #solar #microscopy #ScienceWithImpact
Scientists say "good science takes time"—it took us almost 4 years, in fact!
Introducing CLIM: A gateway to explore the inner workings of solar cells & delve into local photophysics.
@hofkenslab.bsky.social @vaynzof.bsky.social
@borislouis.bsky.social
onlinelibrary.wiley.com/doi/10.1002/...
Looking for a high-throughput characterization tool for your thin films (perovskite, polymer)? We developed a luminescence-based method! Guide to the page pubs.acs.org/doi/10.1021/...
@hofkenslab.bsky.social @borislouis.bsky.social
#MSCActions #Perovskite #ThinFilms #Materials #imaging
Sudipta Seth
Sudipta Seth
Sudipta Seth
Correlation clustering imaging (CLIM) exploits local intensity fluctuations observed by fluorescence microscopy in metal-halide perovskite films and their solar cells to generate novel contrasts unco...
As the field of metal halide perovskites matures, a range of compositionally different perovskite films has found a place in efficient optoelectronic devices. These films feature variable local struct...
🔬Transforming local intensity fluctuations in solar cells into information with CLIM🔬
Borrowing principles of AI and super-resolution optical microscopy, 𝐂𝐋𝐈𝐌 provide structural and functional information in photo-active materials.
Read more here: doi.org/10.1002/adma...
🧐 𝐁𝐮𝐭 𝐡𝐨𝐰 𝐝𝐨𝐞𝐬 𝐢𝐭 𝐰𝐨𝐫𝐤?
This work was done in @hofkenslab.bsky.social and Martin Vacha's lab and lead by @sudiptaseth.bsky.social.
We combine structural information obtained by SEM with functional information obtained by PL and our correlation clustering imaging.
Here is the link to the paper pubs.acs.org/doi/10.1021/...
Boris Louis 🧪🔬
Boris Louis 🧪🔬
🔬🚧Building yet another microscope at Hofkens lab.
In the age of commercial microscopes, we scavenge our old setups and customize our own.
Exciting time ahead!
#Microscopybuilding #opticaltrapping #colloidalmemory #scienceInnovation #risefromtheashes #Fastcomet
Halide perovskite supercrystals, also known as superlattices, are electronically coupled low-dimensional materials, such as nanocrystals, quantum dots, or nanoplatelets that offer collective optical a...
pubs.rsc.org
HofkensLab
Video
As the field of metal halide perovskites matures, a range of compositionally different perovskite films has found a place in efficient optoelectronic devices. These films feature variable local struct...
