Alexandra F. Paterson
@zan_paterson
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Assistant Professor | Organic electronics @universityofky
University of Kentucky
Joined August 2021
We developed single cell perovskite solar cells with PCE > 26%. Control over the 3D/2D interface microstructure is the key: Solvent-dripping modulated 3D/2D heterostructures for high-performance perovskite solar cells | Nature Communications
nature.com
Nature Communications - The random orientation of spontaneously formed 2D phase atop 3D perovskites limits the performance of solar cells. Here, authors introduce a meta-amidinopyridine ligand with...
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Qiao’s work demonstrating the positive impact of adding alkyl groups to the periphery of an IDTT based NFA. Thanks to all collaborators for helping with this study Advanced Science - Wiley Online Library
advanced.onlinelibrary.wiley.com
A novel small molecule acceptor SC8-IT4F has been synthesized by introducing outer alkyl chains onto the terminal thiophene of the conjugated IDTT core and investigated for high-performance organic...
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📣📣📣📣📣📣 Don’t miss the Organic, Hybrid & Perovskite Photovoltaics Conference at the SPIE Organics+Photonics, Aug 3-7! Abstract deadline is Feb 5. With @PalomaresEj @gnm_reddy @DanedeQuilettes @_iainmcculloch @MingLeeTang1 + many more. 📣📣📣📣📣📣 https://t.co/azhQ51eWeX
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Another great paper from @zan_paterson - showing that a combination of deoxygenation and her favourite dopant C60F48, dramatically improves the stability in p-type mixed conductors. A must read!!
https://t.co/qEB0Jq6RAN Improving the stability of organic mixed ionic-electronic conductors @NatureElectron @UKCAER @_iainmcculloch @NirTessler @cmrisko
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Congratulations to Leah Noble, who successfully defended her dissertation and earned a PhD in Materials Science and Engineering! Her presentation: “Novel precursors for carbon fiber prepared by direct carbonization.” Says Leah, "I’m extremely grateful I had the opportunity to do
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https://t.co/qEB0Jq6RAN Improving the stability of organic mixed ionic-electronic conductors @NatureElectron @UKCAER @_iainmcculloch @NirTessler @cmrisko
nature.com
Nature Electronics - The stability and performance of organic electrochemical transistors can be improved using a two-step technique in which oxygen is first removed from the solvent and then a...
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Congrats to @GrahamLabUKY, @zan_paterson, and @cmrisko on their NSF award! UK Interdisciplinary Team Granted NSF Award to Build Insights into Mixed Electronic-Ionic Transport, STEM outreach in Kentucky Read more: https://t.co/BR7jvwWCtY
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Our paper on asymmetric OECT switching kinetics from doping propagation and density-dependent mobility is out @NatureMaterials! Led by @chenmerson & Jiajie Guo, with @cgbischak, Chang-Zhi Li (Zhejiang) and @luscombe_OIST, complete with cool movies!
nature.com
Nature Materials - The turn-off time is generally faster than the turn-on time in accumulation mode organic electrochemical transistors (OECTs), but the mechanism is less understood. Here the...
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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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When a Geordie meets an Oldham(er) at #fMRS23… Delighted to welcome @zan_paterson to the @JPhysMaterials board in true @IOPPublishing style. It’s gonna be fun 😁👍🏻
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It was a great experience to co-organizing #SB07 at #F23MRS with these great people and good friends! @lmm_asplund @GDSpyropoulos @zan_paterson. A huge thanks to all the participants for their contributions!
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Great fun hosting the @IOPPublishing reception #F23MRS last night. Thanks to all who came-friends of @JPhysMaterials & @JPhysEnergy new and old! @scanlond81 @SutterFellaLab @bluebananna @hybridLinn @PaoloBonda @gogotsi1 @zan_paterson @ZeilaZanolli @BanerjiNatalie @burriel_monica
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We are pretty excited about this one!
Editors' Choice #OA Perspective @ACSEnergyLett "Soft Materials for Photoelectrochemical Fuel Production" by @ERatcliff_UA and collaborators @uarizona and @NREL
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We've had some eclectic covers in 2023! Nine covers were contributed by authors... we're down to the top 3... what is your favorite? Vote your opinion... see comment below poll for cover images! FINAL Round...
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Consistent reporting of the product of charge carrier mobility and volumetric capacitance is key for developing these systems. This Comment argues that unexpected changes in transistor channel resistance can overestimate this figure of merit. @zan_paterson
nature.com
Nature Materials - An essential part of developing organic mixed ionic–electronic conducting materials and organic electrochemical transistors is consistent and standardized reporting of the...
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A new paper published in Nature Materials from Alexandra F. Paterson’s (@zan_paterson) organic electronics group challenges traditional practices in organic electronics. Learn more: https://t.co/AU2d4NfVMg
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Registration is open. Check out the details over the next few weeks as we add speakers. https://t.co/oRARooCoaX
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Extracting the μC* product from OECTs? @NatureMaterials @_iainmcculloch @UKCAER @universityofky
https://t.co/A2pcfYmJyR
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Historically, much of the gender gap in earnings could be explained by differences in education and occupational choices. However, this year’s economic sciences laureate Claudia Goldin has shown that the bulk of this earnings difference is now between men and women in the same
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We have a new video release! In this video, PhD student researcher Paula Alarcón Espejo walks us through the utilization of PEDOT:PSS fibers in Organic Electrochemical Transistors (OECTs). Watch in Full over on YouTube! https://t.co/iU9byvzy4p These transistors are
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