🏫 @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

🎓 Prof. Paolo Samorì has been awarded the China-France Chemistry Lectureship Award 2026!

🤝🇨🇳🇫🇷 A prestigious recognition celebrating outstanding contributions to chemical sciences and international collaboration between China and France @ccschemistry.bsky.social @reseauscf.bsky.social

🚀 HYPERSONIC Newsletter #2: Progress & Highlights is out!

In this issue, we explore:
1️⃣ Bridging the Gap
2️⃣ The Power of Microscopy
3️⃣ Impact & Applications
4️⃣ Understanding Nanosheet Networks
5️⃣ Why HYPERSONIC Matters

📥 Grab your copy now: seafile.unistra.fr/f/a9d7b4d1cf...

@saraskrabalak.bsky.social @tue.nl @templechemistry.bsky.social @temple.edu @ucirvine.bsky.social

@pku1898.bsky.social @cicbiomagune.bsky.social @nanbiosis.com @cinbio.bsky.social @uvigo.bsky.social @pittchemistry.bsky.social @mayoclinic.org @uni-hamburg.de @sorbonne-universite.fr @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social @pennstatechemistry.bsky.social @pennstateuniv.bsky.social

@berkeleychemistry.bsky.social @ucberkeleyofficial.bsky.social @princeton.edu @chenxdnano.bsky.social @cathleencrudden.bsky.social @c2mci.bsky.social @univcotedazur.bsky.social @nuchemistry.bsky.social @anitaho-baillie.bsky.social @sydney.edu.au @kamat.bsky.social @notredame.bsky.social

🤝🇨🇦🇺🇸🇧🇪🇨🇭🇭🇰🇸🇬🇨🇳🇫🇷🇦🇺🇯🇵🇰🇷🇪🇸🇩🇪🇮🇳🇳🇱 @jillianburiak.bsky.social @ualberta.bsky.social @utexasece.bsky.social @utaustin.bsky.social @ematsarabals.bsky.social @nano-ua.bsky.social @uantwerpen.be @ethz.ch @bme-uoft.bsky.social @donnellycentre.bsky.social @utoronto.ca

🤖 Is AI-generated peer review enough? Not even close! High-impact science relies on your unique human expertise, critical thinking, and judgment. This ACS Nano editorial reminds us why the human element is the backbone of research integrity 🧠
🔗 doi.org/10.1021/acsn...

🤝🇨🇳🇫🇷🇧🇪 #jlu @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social @nano-ua.bsky.social @uantwerpen.be

💰 @agencerecherche.bsky.social @fwovlaanderen.bsky.social @ec.europa.eu @scienceinnovation.ec.europa.eu

Wafer‐Scale Synthesis of Molecularly Engineered 2D Covalent Organic Framework Films for Highly‐Sensitive and Rapid‐Response Humidity Sensing We report molecularly engineered 2D COF films for high-performance humidity sensors. The developed COFTPT-THTA ultrathin film features triazine-functionalized π-conjugated backbones and high-density ....

🩺 We built ultra-thin, wafer-scale 2D COF films that “feel” moisture in a blink, enabling fast, precise breath tracking in wearable tech. From asthma to apnea, real-time respiratory monitoring is moving closer to everyday life! 🌬️
🔗 Open access: advanced.onlinelibrary.wiley.com/doi/10.1002/...

🤝🇮🇹🇸🇪🇫🇷 @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @ec.europa.eu @scienceinnovation.ec.europa.eu

Liquid‐Processed 2D Aromatic Amorphous Carbon: Defect Engineering and Universal Transport Scaling Liquid-processed graphene oxide (GO) thin films undergo a controllable crystalline–to–amorphous transition driven by thermal quenching. By kinetically tuning oxygen-driven defect formation during red...

🧊 “Frozen” graphene? By using rapid heat quenching during reduction of graphene oxide, we’ve created a 2D amorphous carbon that’s liquid-processed and scalable, revealing a “universal” secret to how electricity flows through disordered materials! ⚡️
🔗 doi.org/10.1002/smll...

🤝🇨🇳🇫🇷 #jlu @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @agencerecherche.bsky.social #iuf

Precise Optical Modulation of Charge Transport in 2D Organic Molecular Crystals through Tailor-Designed Photoswitchable Guest–Host Architectures Two-dimensional organic molecular crystals (2DOMCs) have emerged as promising candidates for next-generation ultrathin electronics. However, precisely and reversibly modulating their charge-transport characteristics remains a significant challenge. Herein, we report a molecular engineering strategy to create light-programmable field-effect transistors (FETs) based on a monolayer thick 2DOMCs, which is achieved by dispersing photochromic diarylethene (DAE) guests into a crystal host matrix of 2,6-bis(4-hexylphenyl) anthracene (C6-DPA). By systematically functionalizing the DAE periphery with substituents of varying electron-donating and -withdrawing strengths, we precisely tune the HOMO energy levels of the guest molecules. We identify DAE-OCH3 as the optimal dopant, which enables a 54% modulation of the FET current within just 5 s of UV light “writing” process. Notably, the optimized C6-DPA/DAE-OCH3 (15%) guest–host system exhibits approximately 85 distinct and stable current levels, corresponding to a storage capacity exceeding 6 bits, with excellent retention over 16 days. This performance represents a significant advancement in ultrathin multilevel memories based on high-mobility organic semiconductors. Our approach establishes a general platform for developing stimuli-responsive 2D organic materials with programmable (opto)electronic properties, opening new avenues for high-density data storage and future generation intelligent (opto)electronics.

💡 Light-controlled ultrathin electronics are here! We engineered 2D organic crystals that precisely tune current with light, enabling stable 6-bit memory in a single molecular layer. A big step towards high-density, programmable optoelectronics! ⚡️
🔗 doi.org/10.1021/jacs...

Peer Review and AI:Your(Human)Opinion Is What Matters
ACS Nano Editorial pubs.acs.org/doi/10.1021/...
"No LLM can replicate critical thinking and experience of researchers. Editors specifically chose you because of your expertise; we value your unique perspective and evaluation,not that of an LLM"

🤝🇺🇸🇫🇷🇵🇹🇵🇱 @ygogotsi.bsky.social @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @ec.europa.eu @agencerecherche.bsky.social @ncn.gov.pl

Influence of Disorder on the Electronic Properties and Magnetotransport of Ti3C2Tx Single-Flake Devices The exploration of MXenes for electronic applications is a rapidly growing field in materials science. However, most research has focused on MXene films, with only a limited number of studies addressi...

🌡️ Cooling and heating single Ti₃C₂Tₓ MXene flakes tunes their disorder – and with it, their electronic and magnetotransport properties. From quantum effects at low temperatures to a metal → disordered-metal transition, temperature is the key! ⚡️
🔗 doi.org/10.1021/acsa...

🤝🇮🇹🇫🇷🇪🇸 @uam.es @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @ec.europa.eu @agencerecherche.bsky.social @erc.europa.eu

🔥 Heating speed shapes graphene oxide! Fast ramps → amorphous-like 2D carbon. Slow ramps → ordered, stacked layers with restored in-plane structure. Control the kinetics, control the properties! 🚀
🔗 Open access in Carbon: doi.org/10.1016/j.ca...

🤝🇬🇧🇵🇱🇰🇷🇮🇹🇫🇷 @euanrkay.bsky.social @st-andrewschem.bsky.social @uniofstandrews.bsky.social @polskaakademianauk.bsky.social @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social @giuliosflask.bsky.social @paolaposocco.bsky.social

💰 @royalsociety.org @ncn.gov.pl

Function from Confinement: Ligand-Coated Nanoparticles as Functional Materials For nanoparticles stabilized by self-assembled monolayers, the surface-bound molecular species not only modify the core material properties but also provide a handle for interaction with other compone...

🚀 Function emerges from confinement! Ligand shells aren’t passive – they drive catalysis, sensing, switching, and programmable assembly on nanoparticles. A systems-chemistry roadmap for functional SAM@NPs! 🧬
🔗 Open access in ACS Nano @pubs.acs.org: doi.org/10.1021/acsn...

🙌 We’re thrilled to welcome Alessia Russo, joining us as a Master 2 Student from the University of Salento! 👩‍🔬🇮🇹 in 🇫🇷

🏫 @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

🤝🇫🇷🇮🇹 @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @agencerecherche.bsky.social @ec.europa.eu

Ionically Tunable Gel Electrolytes Based on Gelatin‐Alginate Biopolymers for High‐Performance Supercapacitors Gelatin-alginate organohydrogels crosslinked with Cu2+ or Mn2+ exhibit distinct nanoscale architectures, as revealed by SAXS, which directly influence ionic transport and electrochemical performance.....

🌱 Biopolymers meet high-performance energy storage! Cu²⁺/Mn²⁺-crosslinked, Li⁺-doped gelatin–alginate organohydrogels offer record capacitance, energy, and stability. Towards flexible, sustainable, next-gen supercapacitors! 🔋
Open access in Small: doi.org/10.1002/smll...

🙌 The team keeps growing! Welcome Giovanni Giglio, Erasmus+ Master 2 Student from the University of Florence 👨‍🔬🇮🇹 in 🇫🇷

🏫 @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

We warmly welcome Jung-Hua Lin @jhlin39.bsky.social, who joins the group as a CSC Graduate School Master 2 Student! 👨‍🔬🇹🇼 in 🇫🇷

🏫 @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

🤝🇨🇳🇫🇷 #sjtu #cas @antoniogri.bsky.social @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @ec.europa.eu

On‐Surface Synthesis of Bismuth Monolayers through Ice‐Confined Redox Reactions We report an ice-confined growth strategy for the synthesis of atomically thin 2D bismuth and related 2D metals. This approach involves rapid freezing of a BiCl3 aqueous solution on an aluminum foil ...

🧊 Breaking the ice in 2D materials! Ice-confined redox reactions on aluminum can grow atomically thin bismuth monolayers with outstanding catalytic performance for CO2 reduction. A simple, scalable, and smart route to next-gen 2D metals! ⚡
Open access: doi.org/10.1002/adma...

🤝🇨🇳🇫🇷 #sjtu #cas @antoniogri.bsky.social @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @ec.europa.eu

🤝🇵🇱🇫🇷 #polsl #czt #uam @unistra.fr @cnrs.fr @cnrs-alsace.bsky.social

💰 @ncn.gov.pl