Olivia
Online
Qiang Sun (SHU surface Group)
@SHUSurfaceLab
Group leader at Materials Genome Institute of Shanghai University, working on surface science phenomenon&nanomaterials; high-throughput method; AI applications
Shanghai
Joined November 2021
95 Following
142 Followers
42 Posts
Thrilled to share our new paper in @angew_chem!
We used on-surface chemistry to grow Fe- and Co-porphyrin nanotapes and explore their unique magnetic interactions! A great collaboration between @Empa_CH, @CFMdonostia, and @UAM_Madrid https://t.co/tl24e7xau3
We have demonstrated a way to grow multi-component molecular nanostructures on a surface, inspired from Venn diagram, high-throughput chemistry🧪.
https://t.co/KZu0wPpCTn
Automating materials synthesis is hot🔥, here is our latest work on automating nanomaterials synthesis under ultrahigh vacuum chamber.
https://t.co/wOk3REOUha
@lmaperdigao Hi, Luis. It depends. The algorithm will suggest to apply either tip crashing or voltage pulse based on what it has "seen".
Who to follow
Benjamin Mallada
@BenjaminMallada
Postdoctoral researcher | University of Oxford, Dept. of Biochemistry| nc-AFM, STM and biophysics on surfaces | Google Scholar: https://t.co/DtdLTJsgyD
Leo Gross
@Leo_Gross_IBM
Principal research scientist at IBM Research. Interested in on-surface chemistry, atom manipulation, atomic force microscopy and quantum computing
Bruno de la Torre
@Brunodltorre
Nanoscience at @CatrinUP, @NanoCINN & @SPM_SumoLab. Advanced SPM user. Junior Star GACR. What if...?
Our latest work on integrating deep learning models to develop autonomous STM system conducting self-driving measurement and data analysis. Thrilled to explore more applications.
"Autonomous Scanning Tunneling Microscopy Imaging via Deep Learning" https://t.co/hmuqTiAuHX
@mog_kar Thanks, Amogh!
Two relevant work that also take advantage of chalcogen atoms:
https://t.co/YWx7Yvfhzh
https://t.co/rwknqqkpky
We have explored how to use chalcogen atom, Te, to direct molecular self-assembly on surface @acsnano
Constructing Molecular Networks on Metal Surfaces through Tellurium-Based Chalcogen-Organic Interaction | ACS Nano https://t.co/9qHJahR1yD
We have explored how to use chalcogen atom, Te, to direct molecular self-assembly on surface @acsnano
Constructing Molecular Networks on Metal Surfaces through Tellurium-Based Chalcogen-Organic Interaction | ACS Nano https://t.co/9qHJahR1yD
By applying a physical mask in the vacuum chamber, we explored the growth of metals with gradient coverage on a millimeter scale substrate. #High-Throughput Method. @ChinChemLett
👉Preparing sub-monolayer metals with continuous coverage spread for hig... https://t.co/6pyyPYh5qV
How to reliably demonstrate Kondo behavior by temperature-dependent scanning tunneling spectroscopy https://t.co/7nQay8jn2g
Impressive video showing so many details uncovering what happen about molecules landing on surfaces
Excited to share our recent @mpifkf works at #DPGSpringMeeting #DPG2024 #SKM24 @TUBerlin! Looking forward to feedback from the #physics and #stm communities. Also we are going to @MpiciPotsdam @BioMolSy on Tue to say hi to friends 😊
Really hoping that @DB_Bahn works 100% 🙏
If your reserch relates to on-surface synthesis, don´t miss your chance to submit your abstract to #OSS24
(https://t.co/I1DKHx0oTk) before the extended deadline: Marth 14th. Hope to see you in San Feliu de Guixols!
Just out in @NatureNano 🥳 - we show how to do photochemistry with submolecular precision☀️🔬⚗️
Great teamwork with @IPCMSlab @CNRS @FZU_AVCR @mpifkf !🍻
https://t.co/jJ3WNnOCS1
More below 👇(1/n)
Chemistry that fits the occasion
Learn about some of the customs of Chinese New Year and the chemistry behind them in the latest edition of #PeriodicGraphics by @compoundchem: https://t.co/hqIts7DhpS
Cyclocarbons are deceptively simple looking. But it's only in the last few years that chemists have pushed the limits of synthesis far enough to gain insights into these forms of pure carbon – some of which could change how we define aromaticity.
https://t.co/7retXYugnd
@00alexx Thanks for sharing! Very useful codes, the illustration gets much improved.
🔬 Excited to share our new work on photoinduced on-surface synthesis. We try to offer novel perspectives in the study of light-induced chemical processes on surfaces.
@acsnano https://t.co/QsjwTSiSkn
Our latest work on #SurfaceSelfAssembly is out in ACS Nano, in which we seek to incorporate randomness into 2D molecular networks.
Order–Disorder Transition of Two-Dimensional Molecular Networks through a Stoichiometric Design | ACS Nano https://t.co/eaVJBMaTj1
😂😂😂
Map Proves It’s A Cat’s World And We’re Just Living In It. https://t.co/aDqlrXa1LN
New version of WSxM available 🤗
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