Rajkumar Barla
@raju_rising
looking for a post-doc position in organic solar cells. Ph.D. in organic chemistry (organic solar cells) @snuchemistry
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Delighted to share this work-5 years in the making! In glycolated n-type OMIECs, the side chains determine which ions drive the doping process. Anions matter just as much as dopant cations! These polymers behave similar to filtration membranes. @JACS pubs.acs.org/doi/full/10.10…
Highly recommended for researchers in organic and perovskite LEDs, this tutorial combines experimental characterization with device simulation using tools like PAIOS and SETFOS. fluxim.com/simulation-and… #perovskite #oled #research
Paper alert 🔔 After over a year juggling between journals (!), our outdoor stability work is finally out! @NaturePhotonics nature.com/articles/s4156… no removing interlayers or electrodes in between tricks, no mpp but Voc, outdoor in Saudi, OPV can survive quite nicely! Enjoy!!
We hope our findings encourage a renewed focus on material stability in the pursuit of high-efficiency, stable OSCs. Enjoy reading!! 🎊 #OrganicSolarCells #Stability #OPV
Thanks to the editors of @NatureMaterials for this opportunity to share insights on #OPV scale-up : nature.com/articles/s4156…
Harvesting sunlight with molecular crystals: In our new article in @angew_chem, we report pyrenylvinylpyrylium salt crystals that can convert visible light into mechanical work and can be cycled by heat, expanding the use of crystals to harvest sunlight! onlinelibrary.wiley.com/doi/10.1002/an…
![NaumovGroup's tweet card. Reversible [2+2] cycloaddition and cycloreversion of pyrenylvinylpyrylium salt elicit bending of its crystals by exposure to visible light and straightening by heating. This example represents a...](https://pbs.twimg.com/card_img/1986521162684239872/YtnKOLfQ?format=jpg&name=orig)
🎉Congrats to Jan Matthys for winning the Special prize for the best poster by @ACSPublications for his work on 'Detecting shallow trap states in semiconductor nanocrystals using hole-burning pump-probe experiments' during the #MATSUS25 @nanoGe_Conf! 🔗nanoge.org/MATSUSSpring25…
Check out our first issue with exciting work on solar research!
Discover exceptional solar research from top scientists around the world, including Michael Saliba, Samuel Stranks and Udo Bach. #JoinIn | Read our first issue now: rsc.li/4hSb6Tw
"The nice thing is, every day it's an exploration, it's a new discovery out there waiting to be made and just the process itself I think lends itself very well to the basic human nature of liking to explore and to understand and to see new things. That's what science is all…
🗣️ Michael Saliba at #IPEROP25 @nanoGe_Conf delivers an insightful presentation on the critical role of controlling crystallization dynamics in achieving highly efficient and stable wide-bandgap organic and all-inorganic perovskite solar cells. 🔗 nanoge.org/IPEROP25/home
📸 The #IPEROP25 @nanoGe_Conf attendees gathered for a group photo! 🙌 Amazing talks today exploring cutting-edge advancements in hybrid and organic photovoltaics, including dye-sensitized, organic thin-film, and #QuantumDot #SolarCells. 🔗 nanoge.org/IPEROP25/home
🙌We’re excited to kick off the Asia-Pacific International Conference on Perovskite, Organic Photovoltaics and Optoelectronics in Kyoto #IPEROP25 @nanoGe_Conf. 👉 Join us to explore the advances in hybrid and organic photovoltaic cells. 🔗 nanoge.org/IPEROP25/home
Prof. Hugo Bronstein and other researchers at the University of Cambridge, Imperial College London and Queen Mary, have shown how different arrangements of molecules in organic solar cells can improve light absorption. This can lead the way to better and cheaper solar panels.
Some excellent research on improving the arrangements of molecules in organic solar cells, for the solar panels of the future. ch.cam.ac.uk/news/better-ar…
Green organic photovoltaics: Collaborative research between UCSB @QuyenUCSB @CUEngineering @GeorgiaTech @univ_lille demonstrates a power conversion efficiency of ~15% in OPVs processed from an environmentally sustainable solvent. Check out: pubs.rsc.org/en/content/art…
pubs.rsc.org
Additive-free molecular acceptor organic solar cells processed from a biorenewable solvent approa...
We report on the use of molecular acceptors (MAs) and donor polymers processed with a biomass-derived solvent (2-methyltetrahydrofuran, 2-MeTHF) to facilitate bulk heterojunction (BHJ) organic...
Check out our most recent article published in Nanoscale (@nanoscale_rsc) on the rational design of carbon nanobelts with tunable electronic properties by @GibuGeorge_, O. A. Stasyuk, @miquelsola, and @AntonJStasyuk
Our paper about a series of simple donor polymers has been published in @MaterHoriz! We show that synthesis doesn't have to be complicated to make efficient materials for OPV 🌞 pubs.rsc.org/en/content/art…… @Nicogaspa @JuliannaPanidi @GroupHeeney @impchemistry
There’s a rhythm to the stars. Astronomers identified a collection of pulsating red giant stars across the sky, each with a unique tone that depends on each star’s interior structure, mass, and size. #MondayMotivation #UncommonMusicalInstrumentDay
Here is a new chapter in the development of our photochromic translucent solar cells! Proud to see this team effort published in Chem.Sci. @ChemicalScience #MyFirstChemSci #ERC #DSSC pubs.rsc.org/en/content/art…
pubs.rsc.org
Push-pull photochromic dyes for semi-transparent solar cells with light-adjustable optical proper...
We report the design, synthesis and characterization of push–pull photochromic naphthopyran dyes, incorporating different carbazole moieties as the electron-donor group for use in dye-sensitized...
#ICIQNews 🌍 Two international companies are commercializing the EADR03 molecule for solar cells from @palomaresgroup. 🌿 We are proud of the team's commercial success in paving the way for a greener future! Read more 🔗 iciq.org/iciq-molecule-… @iCERCA @SOMM_alliance
Artificial atoms created from cesium ions on an InSb(110) surface can be used to emulate the molecular orbitals of organic molecules. Learn more in Science: scim.ag/3cr
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