Outreach day today in the lab, thanks to @RubenRuizMateos @ChrisSlaughter_ @skissovsky for their inspiring presentations!

Recent Advances in Stimuli-Responsive Materials and Soft Robotic Actuators for Bioelectronic Medicine @ChaoqunDong @Cambridge_Eng @BioelectronicsL @cambridge_ee

Check out our new publication, a new way to pattern soft bioelectronics - *3D freeze-printing of binder-free PEDOT:PSS* https://t.co/3A1guXpF0w

An innovative method for improving single #photon collection – an essential step in advancing secure communications, high-precision imaging & #quantum computing – has been developed by researchers @Cambridge_Uni & the @NIST https://t.co/xAg2mzVT15 @cambridge_ee #photonics

We are excited to announce our next seminar with Prof. @scotttomkeene from @RiceUniversity 📅 Tuesday, 24 June 2025 🕑 2:00 PM (London) 💻 Online via Microsoft Teams 👉 Register here: https://t.co/yeWsHXdDj2

Congratulations @AmparoGuemes @RubenRuizMateos

🧠💡 Heat hack for bioelectronics? Cambridge researchers have developed a simple thermal trick to enhance the performance of a promising material for brain–computer interfaces and medical implants. 👉Read more: https://t.co/jeyG82z1YW #Neurotech #Bioelectronics #MedicalDevices

Stimuli-Responsive Materials and Soft Robotic Actuators for Bioelectronic Medicine @ChaoqunDong @BioelectronicsL @Cambridge_Eng @cambridge_ee

New #research involving scientists from @Cambridge_Uni, @RiceUniversity & @Stanford could make #bioelectronic devices easier and more reliable to manufacture – all thanks to a chance discovery made during an experiment https://t.co/GtXGZrQjgb @BioelectronicsL @GeorgeMalliaras

Delighted to announce that the website for the European Conference of Molecular Electronics (ECME 2025) is now live. Submit your abstract here: https://t.co/MHReOZ39pb See you @Cambridge_Uni

Thanks @GeorgeMalliaras! Thankful for the opportunity to share our work at such an amazing conference. This wouldn’t have been possible without the support of the amazing team we have at @BioelectronicsL

Do you like working with PEDOT:PSS but are tired of dealing with cross-linkers? In our recent work led by @sdoshi0 and Margaux Forner, we show that PEDOT:PSS becomes water stable after baking at 150 °C for 2 min. Now available at @AdvPortfolio:

Our speakers from InnoLAE Session 6 on Bioelectronics: -Eleni Stavrinidou, Linköping University -Christopher Slaughter, Uni of Cambridge -Henrique Gomes, Coimbra University -Ruben Ruiz-Mateos Serrano, Uni of Cambridge -Josée Mallah, Uni of Cambridge #bioelectronics

Opportunity to join our team @BioelectronicsL @Cambridge_Eng @cambridge_ee ! We are looking for a Research Associate in In Vivo Electrophysiology https://t.co/s7RIvcADM3 Please RT

Conducting Polymer Microelectrode Arrays for Simultaneous Electrophysiology and Advanced Brain Imaging @SagnikSM @AlejCarnicer @Vin_Curto @baronedg @mng_ceb @BioelectronicsL @cambridge_ee @Cambridge_Eng @cebcambridge

Body Surface Potential Mapping: A Perspective on High‐Density Cutaneous Electrophysiology - https://t.co/9VwTfFT3DF @RubenRuizMateos @NeuroCon_ICL @Cambridge_Eng @cambridge_ee @BioelectronicsL

A major consortium from across Cambridge life sciences, #tech & business worlds announce multi-million-pound, 3-year collab with @ARIA_research https://t.co/AI2guPqzye The partnership involves @GeorgeMalliaras @BioelectronicsL focusing on a new generation of #neurotechnologies

Thrilled to showcase our last work using electrogelation of PEDOT:PSS and its copolymers for Bioelectronics-now published in J. Mat. Chem. C as part of emerging investigator themed collection 2024! Thanks to @RoySocChem for the invitation. Keep reading👇.

Thin-Film Implants for Bioelectronics, by @PoppyOldroyd @SalimElHadwe @baronedg @Cambridge_Eng https://t.co/AMOsQxVWbz @Cambridge_Eng

From the great @AlejCarnicer with @AlexanderJBoys @AmparoGuemes @JohannesGurke @Santiagovb5 Sam Hilton and @baronedg @Cambridge_Eng