Ebin Sebastian
@EbinZebu
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Joined September 2019
Happy to share our recent work about mixed phase core-shell heterostructures utilizing lanthanide nanoparticles and perovskite nanocrystals, published in @NatureComms. Read here: https://t.co/XtgDhOhm7q. Thanks for the great team work from Uni. of Cambridge and NTU Singapore.
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I'm hiring two PhDs to work on organic materials chemistry in Oxford starting Oct 2025, please share! 😁 There's a Graduate Open Day on Tuesday 29th October 2024. For those who would like to find out more about our courses, have a tour of the building and meet Supervisors please
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Our new paper with the @wuerthnergroup is out in @J_A_C_S! 🎉 Congratulations to @jessicaruehe @KavyaVinod19 Hanna Hoh, Kazutaka Shoyama, @maheshhrn & Frank Würthner on this exciting collaboration. Check out the cool work here:
pubs.acs.org
The properties and functions of chromophores utilized by nature are strongly affected by the environment formed by the protein structure in the cells surrounding them. This concept is transferred...
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Scientists in the Rao group have developed a safer method to accelerate Phase Transitions in semiconducting 2D Materials, detailed in their paper published in Nature. Read the paper here: https://t.co/rr3KeQ42eP
#optoelectronics #OpticalMicroscopy #Crystallography
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Check out our new work on "Excited-state Dynamics in Segregated Donor-acceptor Stacks Versus A Peri-bisdonor-acceptor System" out now in @ChemEurJ 🥳. Congratulations to Dr. Remya Ramakrishnan, Meera Madhu, @CHruidya @EbinZebu and @maheshhrn. @tvmiiser
https://t.co/NDYL7fcviz
chemistry-europe.onlinelibrary.wiley.com
Delocalized excitation in the segregated stacks of the naphthalenemonoimide-perylene based donor-acceptor system (NI-Pe) is reported. In the monomer of the fork-shaped bisdonor-acceptor system...
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Check out our recent article published in the Accounts of Materials Research @AMR_Discovery featuring the transformation chemistry of the Au23(SR)16 nanoclusters. Congratulations, @SGratious @NahanNida & thanks, @serbonline & Rongchao Jin for the support.
pubs.acs.org
ConspectusAtomically precise metal nanoclusters (MNCs) have revolutionized the field of nanoscience and material chemistry with their well-defined structure, quantum confinement effect, and distinc...
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Check out our recent review paper about how heterostructures enhance the absorption of lanthanides https://t.co/4eBOQD49MH Thanks for the invitation from @AppliedPhysRev and team work of @RaoGroupCAM.
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Want to know how the identification of an intermediate helps in visualizing the gold nanocluster transformation? Find out in our recent article published in @ChemicalScience now!! https://t.co/2wKhyk6un1 Thanks, @serbonline, for the funding. @SGratious @tvmiiser
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Check out our new article, "Unveiling the intersystem crossing dynamics in N-annulated perylene bisimides" published in @PCCP! Congratulations @jeswin1710 @EbinZebu @SuvarnaSujil , Frank Würthner, Bernd Engels & @maheshhrn 🥳 @tvmiiser @Uni_WUE
https://t.co/c7WSI0IxlZ
pubs.rsc.org
The efficient population of the triplet excited states in heavy metal-free organic chromophores has been one of the long-standing research problems to molecular photochemists. The negligible spin–o...
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"Keeping the chromophores crossed: evidence for null exciton splitting."🤞 Thank you for featuring as the front cover @ChemSocRev Kudos to @AlfyBenny for the excellent cover art 🥳 https://t.co/HgzioidNZA
@LijinaMp, @AlfyBenny, and @EbinZebu
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Happy to share our accepted Front Cover in JPC Letters @JPhysChem! Kudos to @MaretPhilip, @devsk94, and @EbinZebu 🥳 https://t.co/1IH4m64gNq
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Can we probe symmetry-breaking charge separation in a single molecule? Check out our first single molecule paper featured in JPC letters @JPhysChem! Congratulations to @MaretPhilip,@devsk94 and @EbinZebu 🥳 https://t.co/gl3N2MgSPF
pubs.acs.org
Chiral molecular assemblies exhibiting symmetry-breaking charge separation (SB-CS) are potential candidates for the development of chiral organic semiconductors. Herein, we explore the excited-state...
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Excited to share the latest work from my postdoc on the modeling of electrochemical doping in OMIECs! Now online in #ScienceAdvances w/ @GeorgeMalliaras @RaoGroupCAM
https://t.co/lGvJqobDEU
science.org
The hole chemical potential drives diffusive kinetics for electrochemical doping in an ion conducting conjugated polymer.
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Check out this #OpenAccess review by @LijinaMp, @AlfyBenny, @EbinZebu and @maheshhrn 🔓 @GroupHariharan "Keeping the chromophores crossed: evidence for null exciton splitting" From our Pioneering Investigators collection Read the full review here 🔗
pubs.rsc.org
Fundamental understanding of the supramolecular assemblies of organic chromophores and the development of design strategies have seen endless ripples of interest owing to their exciting photophysical...
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Ever wondered how an aggregate can mimic monomer? Discover the intriguing exciton dynamics of null aggregates in the latest review on, "Keeping the chromophores crossed" now out in @ChemSocRev 🥳 https://t.co/HgzioidNZA Congrats to @LijinaMp @AlfyBenny @EbinZebu @maheshhrn 🥳
pubs.rsc.org
Fundamental understanding of the supramolecular assemblies of organic chromophores and the development of design strategies have seen endless ripples of interest owing to their exciting photophysical...
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Congratulations to this year's Ph.D. graduates @EbinZebu @athiratjohn @devsk94, BSMS graduates @vivek_v_dev @KEERTHYPS4 @sohan_sdj, and MSc graduate @medhaggy .🥳 Wish you all the very best in your future endeavors!
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Our first investigation, my first PhD paper, on making and understanding doublet emitters with laser precision! Out in @NatureComms Do reach out if you have some 'Radical' Doublets for us made using the strategy we provide! 😁 https://t.co/lECse6r4wj
nature.com
Nature Communications - Neutral π-radicals are potential emitters for optoelectronic devices due to the absence of energetically low-lying non-emissive states. Here, the authors report...
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Excited to share my work using microscopy to study ion (and hole) transport in conjugated polymers! Now out in @NatureMaterials: https://t.co/1tIvkYW5Bg With @GeorgeMalliaras @RaoGroupCAM @l_joonatan @raj_pandya93 @_iainmcculloch @maxmoser29 Chris Schnedermann + Paul Midgley 1/9
nature.com
Nature Materials - Electrochemical doping is assumed to be limited by ion motion due to large mass in mixed ionic-electronic conductors. Here, the authors reveal in a typical polythiophene that...
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