Gaeun Kim
@GaeunK1m
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Ph.D. Candidate @ University of Notre Dame
Joined November 2022
Do you know how much medium you need to make enough exosomes for clinical translation? Too much! But Rising Star @Yichun_Wang_Lab is fixing that, making those tiny vesicles really good for big deliveries! 📦🧬 #ExosomeScience #cmbe2025
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Small extracellular vesicles show promise for drug delivery, but challenges like low drug-loading and poor targeting remain. A new approach using graphene quantum dots and pH-responsive peptides improves efficiency, offering hope for better... @NotreDame
exosome-rna.com
Small extracellular vesicles (sEVs), naturally occurring nanocarriers, are gaining recognition as promising tools for drug delivery. Their ability to naturally target specific cells makes them...
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@ACSBiomaterials @Yichun_Wang_Lab @WebberLab @RunyaoZhu @SihanYu_ Bowen Fan @Hjeon2Jeon Jennifer Leon @NDCBE @NotreDame @NDengineering
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Happy to share our latest study published in @ACSBiomaterials: https://t.co/2pCUxipx1u We developed an innovative sEV-based gene delivery system by integrating 1) the homing effect of sEVs, 2) chiral GQD-assisted gene loading, and 3) pH-responsive peptide functionalization.
pubs.acs.org
Small extracellular vesicles (sEVs) are promising nanocarriers for drug delivery to treat a wide range of diseases due to their natural origin and innate homing properties. However, suboptimal...
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Big turnout from Notre Dame Bioengineering at #BMES2024! @PinarZorlutuna @DHPGroup @JeremiahZartman @DattaScientist @mholla_back @BMESociety
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Happy to share that our latest research has been published in the Biomaterials Science, recognized as an Emerging Investigator article! We introduce a 3D piezoelectric nanofibrous scaffold platform to enhance the production of sEVs by 15.7x! Read more:
pubs.rsc.org
Small extracellular vesicles (sEVs) have great promise as effective carriers for drug delivery. However, the challenges associated with the efficient production of sEVs hinder their clinical applic...
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Happy to share our latest study @Yichun_Wang_Lab on the addressability of DNA nanostructures with the electronic sensitivity of sp2 carbon-based materials. Using DNA origami, we precisely patterned gold nanoparticles on HOPG. Check out the article here: https://t.co/bNcIvzfzvL
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This review discusses the interaction between graphene-based materials and DNA probes/nanostructures and how such interaction create advanced biosensors and empower future biosensing applications. @Yichun_wang_lab
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Check out our latest research paper published in ACS Applied Bio Materials: https://t.co/18rmTJ0QD3
@Yichun_Wang_Lab @RunyaoZhu @YouwenZhang_Lab, @Hjeon2Jeon @shirinchi @NDCBE @NotreDame @NDengineering
#exosome #chirality #drugdelivery #nanomedicine #nanotechnology
pubs.acs.org
Exosomes are promising nanocarriers for drug delivery. Yet, it is challenging to apply exosomes in clinical use due to the limited understanding of their physiological functions. While cellular...
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We @Yichun_Wang_Lab are glad to share a preprint on @ChemRxiv with @WebberLab - "Sensitive Fluorometric Detection of Fentanyl-Class Agents by Competition-Mediated Supramolecular Displacement and Graphene Nanoparticle Quenching." https://t.co/SmjuG35Nat
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NDnano welcomed Yichun Wang, Assistant Professor in the University of Notre Dame's Chemical & Biomolecular Engineering Department, as our March meeting presenter. Learn more about her research: https://t.co/vuyMaRcJ9F
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Very happy to share that our recent review "Interplay of graphene–DNA interactions: Unveiling sensing potential of graphene materials", is featured by @AIP_Publishing @AppliedPhysRev in the collection of "New Carbon Materials". Read more here: https://t.co/v4TmDCiq4J
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Prof. Yichun Wang @NotreDame @NDCBE has received an @NSF CAREER award! Her research focuses on the development of nanotherapeutics through computational, experimental and data-driven methods. Read ⬇️⬇️ https://t.co/7Xf9pEtas4
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Our paper led by @NDCBE graduate student @RunyaoZhu , entitled ‘Blocking tau transmission by biomimetic graphene nanoparticles’, has been featured in J. Mater. Chem. B @JMaterChem "2023 Most Popular Articles collection". Read it here! https://t.co/vrFpPQfUxm
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Congratulations to my amazing Team @Yichun_Wang_Lab @RunyaoZhu @Hjeon2Jeon @GaeunK1m , James Johnston, and @YouwenZhang_Lab - we are looking forward to developing the new therapeutic nanomaterials and training future scientists and engineers.
Prof. Yichun Wang @NotreDame @NDCBE has received an @NSF CAREER award! Her research focuses on the development of nanotherapeutics through computational, experimental and data-driven methods. Read ⬇️⬇️ https://t.co/7Xf9pEtas4
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We @Yichun_Wang_Lab are very grateful for the support from @NIH @NIGMS to develop a convergent bioengineering platform based on biomimetic materials to advance multifunctional drug delivery systems! @NDengineering @NDBioeng @ND_IPH
Kudos to CBE Professor Yichun Wang on her NIH MIRA Early Career grant! @Yichun_Wang_Lab
https://t.co/Inug3g8mM4
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Prof. Yichun Wang @NDCBE @NotreDame has received an @NIH Maximizing Investigators' Research Award (MIRA) for her work on a new drug delivery platform. https://t.co/Z6YO1uuCJF
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