Igor Zozoulenko
@IgorZozoulenko
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Professor in Physics, Head of the Theory and Modelling group at The Laboratory of Organic Electronics @LOE_at_LiU, Linköping University @liu_universitet, Sweden
Norrköping, Sweden
Joined July 2014
We are seeking a PhD student in in Materials Science with focus on Simulations and modelling of mixed ionic-electronic conducting polymers,
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Try ModElChem - a powerful simulation tool for cyclic voltammetry developed by @ModelOneSweden , - a Digital Twin for a standard three-electrode electrochemical cell! #electrochemistry
Exciting Launch! 🚀 We’re thrilled to introduce ModElChem—a powerful simulation tool for cyclic voltammetry (CV) calculations, designed as a digital twin of a standard three-electrode electrochemical cell. Request a trial license at: https://t.co/yTrXARkzDS
#electrochemistry
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Take a look at a Digital Twin of a standard three-electrode electrochemical cell for Cyclic Voltammetry! #electochemistry
Digital Twin of a Standard Electrochemical Cell for Cyclic Voltammetry Based on Nernst–Planck–Poisson Model By Igor Zozoulenko et al @IgorZozoulenko @liu_universitet Check it out in ACS Electrochemistry 👉 https://t.co/YtHlRvr85m
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I am happy to present a refined morphological model of PEDOT:PSS based on molecular dynamics calculation of ion diffusion,
pubs.acs.org
Poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) is one of the most important mixed electron-ion conducting polymers, where the efficiency of the ion transport is crucial for many...
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Very excited to post that our collaborative #research on #PEDOT has just been published. This represents many years of work between Adelaide and Linkoping through COVID. Exciting results about how PEDOT is doped by the Tos anion. https://t.co/XKspak7Xmi
@UniSAFII @LOE_at_LiU
link.springer.com
Discover Materials - The conducting polymer poly(3,4-ethylenedioxythiophene) (known as PEDOT) is routinely fabricated into doped thin films for investigation of its inherent properties as well as...
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our recent paper in ACS Appl. Electron. Mater. https://t.co/VWgRPpH7zG: take a look through a computational microscope on a phase transition studied by Bischak et al.@cgbischak [J. Am. Chem. Soc., 2020, 142, 7434]@SarbaniG
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PhD opening in our group (Computational simulation and modelling of novel organic thermoelectric materialsn) as a part of the EU Training Network HORATES; more details: https://t.co/kM0ei4jAwG
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Do you measure UV-to-IR absorption in polythiophenes and want to know how to interpret the absorption peaks? Check our recent paper in J. Phys. Chem B with the experiment and interpretation based on Density Functional Theory, https://t.co/GmnT3PCW5S
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Our recent DFT study exploring mechanisms of the oxygen reduction reaction and hydrogen peroxide production in Organic Semiconductor pigment Epindolidione @eglo_physchem
https://t.co/fatXSy3k9j
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Z-potential and morphology of PEDOT:PSS particles : A comparative experimental and molecular dynamics study. #PEDOT
https://t.co/lKf6mKEqhc
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We are looking for three postdocs to join our group to study #tuneable #nanooptics, #cellulose #metamaterials, and #solar_fuels. Please RT! #Conductingpolymers, #plasmonics, #nanophotonics, #radiative_cooling @LOE_at_LiU @liu_universitet @AFM_LiU
https://t.co/uC0tI9w9eo
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Everything You Always Wanted to Know About #PEDOT* (*But Were Afraid to Ask): How and why does the granular structure of PEDOT:PSS emerge? Why does PEDOT:PSS swell? Find out in our recent publication:
pubs.acs.org
The conjugated polymer poly(3,4-ethylenedioxythiophene) polymerized and stabilized in the presence of polystyrenesulfonate (best known as PEDOT:PSS) is a working horse of organic electronics and...
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Have a virtual tour inside a cellulose nanocrystal. A visualization from our recent publication in https://t.co/0oglrIA3nX
@LOE_at_LiU
pubs.acs.org
The hierarchical self-assembly of cellulose nanocrystals (CNCs) is an important phenomenon occurring naturally in plant cell walls. Utilization of this assembly for advanced applications requires a...
Check out our latest publication "Theoretical rationalization of self-assembly of cellulose nanocrystals: effect of surface modifications and counterions" from @IgorZozoulenko's group @LOE_at_LiU. Published in @Biomac_ACS: https://t.co/8H5QgTGao1
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What is the origin of the Oxygen Reduction Reaction at a conducting polymer? Find out the answer in our recent paper, https://t.co/CCQUCqKHYH
#PEDOT
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Article in PNAS on using masks, "Identifying airborne transmission as the dominant route for the spread of COVID-19 https://t.co/8EDdDH4fsS Its conclusion: "the difference with and without mandated face covering represents the determinant in shaping the trends of the pandemic"
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Formation of the cholesteric phase of cellulose nanocrystals calculated using our novel patchy particle model for coarse-grained molecular dynamics simulations just published in J. Chem. Theory Comput. https://t.co/4QZizZyME0
@matmirulimarrj @LOE_at_LiU #nanocellulose
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Giant swelling of conductive polymer p(gT2) seen through a computational microscope https://t.co/ydYmB43HXI
@SarbaniG @EleniStavrin @_iainmcculloch
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