#Polymers meet #pasta! @StingelinN at @KAUST_PSE unraveling science of polymers—served with a twist of Italian cuisine. From molecular chains to spaghetti strands, materials science like never before. A great masterclass in #scicomm #KAUST #MaterialsScience #organicelectronics

RT @KAUST_OMEGALab: Is #SAM really a 'SAM'?.Our paper @nanotechie dives into why not all 'SAMs' ensure both efficiency and stability in OSC….

Huge shoutout to @YegoRV for leading this work @NatureMaterials showing how molecular interactions steer polymer orientation, unlocking new potential in organic thermoelectrics @KAUST_OMEGALab @KAUST_PSE .👉 #OrganicElectronics #SustainableEnergy

In-situ-formed thermoset matrices enhance OPV thermostability and double energy output over 11 weeks of outdoor operation! 🌞🔋 #SustainableEnergy #OPVs #MaterialsScience

Non-fullerene acceptors (NFAs) in OPVs can generate charges, thanks to dielectric solvation. Donor addition boosts charge generation and facilitate higher efficiency! #OPVs #SustainableEnergy #MaterialsScience.

so-called 'self-assembled monolayer' are not photochemically stable, they can degrade and decompose under light exposure.

2024 Reflections 🌱✨ It’s been a rewarding year! Promoted to be a dad 👶 and excited to see some great science from our team! Here’s to new beginnings, both in research and life! 📚 #Grateful #ResearchAndFamily #ExcitingTimes. 👇 Check out some of our key 2024 papers:.

Thanks to all collaborators from @Flinders @KAUST_KPVLab and @Uni_WUE.

Our study highlights degradation issues with (2-(9H-carbazol-9-yl)ethyl) phosphonic acid (2PACz), a widely used SAM. Light-induced degradation leads to SAM decomposition and reactions with the photoactive layer, impacting device stability. 🌞.

Mechanistically, aligning the work function of SAM-modified electrodes with the ionization energy of the donor is key.

While SAMs can enhance the work function of indium tin oxide (ITO), they are not always monolayers when spin-coated, contrary to common assumption of being 'SAM'.

🧵 Recent advances in self-assembled monolayers (SAMs) show their efficiency as hole-selective materials in organic and perovskite solar cells. But what about their stability? 🤔.

Excited to share our latest paper just published in #AEM @AdvSciNews! 📄✨ We delve into #performance #stability tradeoff in #organic #solarcells with #2PACz #SAMs. Check it out @KAUST_OMEGALab @KaustResearch @KAUST_PSE #OPVs.Thread with major takeaways👇.

Hot off the press!! A deep dive into the degradation mechanisms in #SnPb #perovskite #Solarcells An insightful study led by @LanzettaLuis & #AsayilAlsulami just published in @J_A_C_S @KAUST_OMEGALab @KaustResearch @KAUST_PSE #stability #Photovoltaics.

📢Checkout our latest paper in @Joule_CP led by #jianhua! We present in-situ cross-linked thermoset matrices for resilient #OPV enhancing #stability in realworld🌟 #Solar #glasstransition #modulus #polymers #DMA @KAUST_OMEGALab @KAUST_PSE @KaustResearch

Many congratulations #Dr @JulesBertrandie!! It was great to be part of your #PhD journey and see you grow and evolve as a #scientist!! @KAUST_OMEGALab @KAUST_PSE @KAUST_PSE #phddefense

RT @KaustResearch: A shade closer to more efficient organic photovoltaics.Transparent solar cells utilize non-fullerene acceptors, merging….

RT @DeryaBaranB: Welcome to the biggest #fomo event of Materials Society @Materials_MRS #S24MRS 😊 I will be in our symposium EN04, and will….