SAM interlayers are quickly becoming a wining technology for large-area optoelectronics:
High‐Efficiency Perovskite–Organic Blend Light‐Emitting Diodes Featuring Self‐Assembled Monolayers as Hole‐Injecting Interlayers https://t.co/KPhAEVPflZ
Our own @Kalaivanan_1994 successfully defended his PhD thesis on adhesion lithography. Great work, Kalai, congratulations and all the best for your future 🎉
👋🏻We say goodbye to our postdoctoral researcher Furkan H. Isikgor and thanks for your efforts.
Congratulations on your new position at the @LAMA_KAUST group 🤗
Conventional organic Schottky diodes suffer from flaws that can hinder their deployment in RF electronics.
Researchers found a way to overcome these issues, developing an organic Schottky diode able to operate within the 5G range. @TDAnthopoulos
👉https://t.co/nwOiN4uO6r
Together with @TDAnthopoulos & @GroupHeeney we show a solid-state biosensor that exploits the phenomenon of fringing current, making real-time sensing possible. Despite being diffusion limited, real-time reading can be done under 2 mins for proof-of-concept #COVID19 detection 👇
Thank you @AllAboutCircuit for giving me the chance to talk about our PV work and more: The Future of Photovoltaics Is Organic: A Conversation with KAUST’s Dr. Thomas Anthopoulos - News https://t.co/7UFnczEB4k
18.4% Organic Solar Cells Using a High Ionization Energy Self‐Assembled Monolayer as Hole Extraction Interlayer - Lin - - ChemSusChem - Wiley Online Library. An other important milestone, congratulations again goes to @LinYuanbao and collaborators. https://t.co/bGXgVfda0O
Our PhD student,@AfnanAlBatati demonstrates hydrogen generation through renewable solar energy during the opening of the new KAUST Circular Carbon Initiative (CCI).
https://t.co/kJzjF7NMhL
An interesting memory device concept. Congrats to Dr Murali Gedda from @LAMA_KAUST and all our collaborators: Ruddlesden–Popper‐Phase Hybrid Halide Perovskite/Small‐Molecule Organic Blend Memory Transistors https://t.co/RjvlUaB4QM
Our PhD students @Kalaivanan_1994 and Afnan showcased their Nanogap electrolyzers in Carbon Circular Initiative (CCI) at KAUST. They are pretty excited to investigate further the electrochemistry happening at the nanoscale (< 10 nm) #CCI#KAUST#KSC#NG
@Kalaivanan_1994@TechXplore_com Thanks to https://t.co/Icx4uGuRuI for featuring our work! Indeed there is a bright future for our large-size yet tiny nanogaps (< 15 nm). ☺️
Thank you @Dimitra_G21, @LAMA_KAUST and all collaborators for helping us develop this game-changer tech: 100 GHz zinc oxide Schottky diodes processed from solution on a wafer scale | Nature Electronics https://t.co/g5MtWncYSx
The leading global lithography event represented by our PhD student @Kalaivanan_1994 who had attended this conference this year at San Jose, California.
We are happy to see his face on the 2021 conference page. 😅😄
#LAMA#Lithography#SPIE conference #Kaust#KSC
Our latest work from @LAMA_KAUST. Thanks to all authors.@TDAnthopoulos@RizwanKNiazi@adscacca@GroupHeeney
Impact of p-type doping on charge transport in blade-coated small-molecule/polymer blend transistors - Published in Journal of Materials Chemistry C https://t.co/8hidgL1ehf
We have officially launched our LAMA group's website. For more details visit our webpage https://t.co/BvigIEG3YU #LAMA group #KAUST#LAMA Family #Official website #update#research
Congratulations Afnan AlBatati🎉👏 for successfully defending your master thesis. Now, we welcomes you back as a PhD student. #MS thesis defense #LAMA team member #Nanogap devices.