Simone Fabiano
@FabianoSimone
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Professor @LOE_at_LiU, Head of Organic Nanoelectronics group, Co-founder and CSO of @n_Ink_AB, research in organic printed electronics and neuromorphics
Norrköping, Sweden
Joined January 2012
I hope everyone enjoy the summer. If you are a MRS member, please log in and vote for our beloved @DeryaBaranB who is willing to serve the community by running for the MRS Board of Directors. Thanks https://t.co/zS4NNnsYBi
@Materials_MRS
#WomenInLeadership
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On-Demand Catalysed n-Doping of Organic Semiconductors (Antonio Facchetti and co-workers) #openaccess @AntonioFacchet2 @FabianoSimone @SUSTechSZ
onlinelibrary.wiley.com
A new approach to control the n-doping reaction of organic semiconductors is introduced by using surface-functionalized gold nanoparticles with alkylthiolated species (f-AuNPs) as a catalyst, which...
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📢We are hiring! We have an opening for a post-doc position on Sustainable Organic Artificial Synapses within an ambitious EU project. We look for candidates with previous experience in printed organic devices. If interested, you can apply here: https://t.co/wHnTMKp8Oa
@IITalk
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In this perspective @NatureElectron, we discuss the current state of the art of organic electrochemical neurons, their strengths and limitations, and their potential for neuromorphic perception—work driven by the amazing efforts of Harikesh and @DeyuTu
nature.com
Nature Electronics - This Perspective explores the potential of organic electrochemical neurons, which are based on organic electrochemical transistors, in the development of adaptable and...
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A Highly Conductive n-Type Conjugated Polymer Synthesized in Water | Journal of the American Chemical Society @FabianoSimone @LOE_at_LiU @liu_universitet #Conductive #Polymer #nType #Water #Synthesis
pubs.acs.org
Poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) is a benchmark hole-transporting (p-type) polymer that finds applications in diverse electronic devices. Most of its success is due...
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Researchers @liu_universitet have developed a new method where organic #semiconductors can become more conductive with the help of air as a dopant #research supported by Knut and Alice Wallenberg Foundation #KAW100 #sustainabilty #technology #electronics
liu.se
Researchers at LiU have developed a new method where organic semiconductors can become more conductive with the help of air as a dopant. The study is a significant step towards future sustainable...
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@Nature @KAWstiftelsen @LOE_at_LiU @AFM_LiU Many thanks to all the collaborators: @maloima @AntonioFacchet2 @GroupHeeney and many others...
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Photocatalysis has driven many advances in organic synthesis. In this recent @Nature paper, we demonstrate its application in catalyzing the oxidation and reduction (doping) of organic semiconductors. @KAWstiftelsen @LOE_at_LiU @AFM_LiU
https://t.co/ED6cFuismY
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Excited to share our perspective on the challenges and opportunities for bioinspired electronics with soft matter. Out now in Nature Reviews Materials: https://t.co/82KIHSdw2g
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In this beautiful study, talented postdoc Tiefeng explores the use of ground-state electron transfer in all-polymer blends to produce water-processable conductive inks—many thanks to all the collaborators.@KAWstiftelsen @LOE_at_LiU @AFM_LiU
.@FabianoSimone et al. from @LOE_at_LiU @liu_universitet show that ground-state electron transfer in donor-acceptor blends aids the aqueous dispersion of water-insoluble conjugated #polymers for high conductivity and stability. #GettingApplied
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Fantastic news and a wonderful opportunity for the entire group. We're looking forward to the exciting science ahead! @LOE_at_LiU @ERC_Research
His #research team at @LOE_at_LiU aims to develop a new type of soft electronic device inspired by the human brain. Now @FabianoSimone has been granted SEK 23 million from @ERC_Research. https://t.co/tMXtrHMO9Y
#organicelectronics #newtech
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Present your research to our symposium: "Materials and Devices for Neuromorphic Electronics and Bio-interfaces" at #F23MRS in Boston! (EL104) Abstract submission deadline is June 13. @Materials_MRS
https://t.co/zWvRdFpDV6
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We've developed an artificial neuron that closely mimics the characteristics of a biological neuron. The secret ingredient? Our favorite BBL polymer! Now published in @NatureMaterials @LOE_at_LiU
https://t.co/0VODPJRsLC
nature.com
Nature Materials - Silicon-based complementary metal-oxide semiconductors or negative differential resistance device circuits can emulate neural features, yet are complicated to fabricate and not...
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📢 We are hiring! Want to work at the interface of Synbio & Bioelectronics? Joint post-doc available between our lab and @NehaPKamat lab @NorthwesternEng. Keywords: bioelectronics⚡️, cell-free synthesis🧬, biomimetic membranes, sensing , brain-inspired🧠-- Interested? DM or email
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This WISE consortium in Sweden is hugely impressive to say the least. FIFTEEN faculty recruitments across some of the best labs in the country. An amazing statement of commitment to sustainability. Congrats in particular to my good friend Magnus Berggren. https://t.co/K4b4KbCZEI
wise-materials.org
Enabling sustainable technologies with impact on our society by understanding, creating, and controlling complex materials.
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#phdjobs and #postdocjobs in my group! Join us in the @ERC_Research project 4D-PhytoHybrid! More info https://t.co/bfVPRzje6J and https://t.co/8CcU0ywRaI Please share
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Our lab @HKU-WISE has four postdoc openings to advance OECT-based medical wearables with our recently developed #PERfECT wearable platform. Msg me if you are also passionate about OECTs & wearables! @khademh @fabiocicoira @GeorgeMalliaras @asalleo @dk2955 @jrivnay @FabianoSimone
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We have two open Ph.D. positions in bioelectronics; i) designing nanostructures for cell studies and ii) bioelectronics for electrotherapy, using zebrafish as a primary in vivo model. @MultiparkL @NanoLund @OMC_GU
https://t.co/0RpyF5EuJe
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🔓 #OpenAccess & an Editors' Choice selection! Read "Unconventional Thermoelectric Materials for #Energy Harvesting and #Sensing Applications" by Massetti, Jiao, @ajferguson78, Zhao, Wijeratne, Würger, Blackburn, Crispin & Fabiano https://t.co/5ppq42Q06C
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