jobRxivNov 15

FAPESP Postdoctoral Fellowship in Hybrid Material-Based Devices
Physics Department, Sao Paulo State University

See the full job description on jobRxiv: https://jobrxiv.org/job/physics-department-sao-paulo-state-university-27778-fapesp-postdoctoral-fellowship-in-hybrid-material-based-devices/

#afm #devices #kpfm #metalorganicframeworks #Sc...
https://jobrxiv.org/job/physics-department-sao-paulo-state-university-27778-fapesp-postdoctoral-fellowship-in-hybrid-material-based-devices/?fsp_sid=5457

FAPESP Postdoctoral Fellowship in Hybrid Material-Based Devices

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jobRxiv
jobRxivNov 6

FAPESP Postdoctoral Fellowship in Hybrid Material-Based Devices
Physics Department, Sao Paulo State University

See the full job description on jobRxiv: https://jobrxiv.org/job/physics-department-sao-paulo-state-university-27778-fapesp-postdoctoral-fellowship-in-hybrid-material-based-devices/

#afm #devices #kpfm #metalorganicframeworks #Sc...
https://jobrxiv.org/job/physics-department-sao-paulo-state-university-27778-fapesp-postdoctoral-fellowship-in-hybrid-material-based-devices/?fsp_sid=5037

FAPESP Postdoctoral Fellowship in Hybrid Material-Based Devices

Post a job in 3min, or find thousands of job offers like this one at jobRxiv!

jobRxiv
Kerstin NeuhausJan 5, 2024

Have a look at the newest publication of Elina Nazmutdinova of @baccara on the influence of Li3InCl6-PEDOT:PSS hybrids in solid-state #batteries, where the composites were prepared via an aqueous one-pot approach: https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/batt.202300434

Congratulations to all co-authors 🥳!

We were able to add a small piece to the puzzle by contributing some #KPFM measurements 🔬.

Kerstin NeuhausMar 16, 2023
Please have a look at this new paper on the #hemocompatibility of #SiC by Zümray Parlak and coauthors!
We contributed some #KPFM measurements of the different SiC surfaces and terminations (although we normally only work on the other kind of cells 🔋😅). Apparently, blood coagulation is influenced by the surface potential/work function of the substrate material, giving interesting Insight for the use of SiC in implants. #AFM #microscopy @fzj https://onlinelibrary.wiley.com/doi/full/10.1002/jbm.a.37533
Kerstin NeuhausFeb 28, 2023

Currently, I am engaged in the #RSCposter conference over at Twitter. https://twitter.com/MicrotoPico/status/1630538555658477570?t=VQJD2Gm9WtsL-5T0nt4RGA&s=19

In our poster, we present #KPFM measurements of dual-phase, oxygen ion conducting materials as a viable way to measure the height and extent of potential barriers at grain boundaries in ceramic #materials. It can also be accessed via DOI: 10.13140/RG.2.2.17073.66402.

Kerstin Neuhaus @[email protected] on Twitter

“#RSCPoster #RSCMat #RSCNano Please have a look at our poster "Investigating Space Charge Layers at Grain Boundaries in dual-phase Oxygen Ion Conductive Ceramics", where we use #KPFM to have a look at the potential difference between grain interior and grain boundaries. @fzj_iek”

Twitter
Show threadKerstin NeuhausFeb 9, 2023
In addition, some of the experimental parameters can also severely influence the potential you measure.
Summarizing, #KPFM is a really good technique to measure e.g. potential distributions at interfaces, when you can back up your findings with theoretical calculations or additional experimental findings. The validity is increased with rigorous sample preparation & moisture control.
In our case, we mainy measure in Ar, as some of our samples are not vacuum stable.
Kerstin NeuhausFeb 9, 2023

Currently, my group is working on several different publications where Kelvin Probe Force Microscopy is used to characterize Materials for different applications.

But what is #KPFM? It is an #AFM based method that measures the surface potential of samples. To measure #KPFM we use the so-called tapping mode: tha cantilever vibrates at its resonance frequency. It needs to have a conductive coating, so the tip is somewhat thicker than conventional AFM tips with a diameter of about 20-50 nm.

Kerstin NeuhausJan 21, 2023
Kids were bored so we built some things with Lego. Perhaps this led me to an idea how to explain surface potential measurements using #KPFM at grain boundaries and why there can be a space charge region... More to come soon 😊 #AFM #scicomm
Kerstin NeuhausDec 16, 2022
My talk on measuring chemical diffusion coefficients of oxygen ion conductive ceramics using a combined polarization-#KPFM method from Nanoscientific Forum Europe in October can now be found on Youtube: https://youtu.be/Bp9CImztclo
Measuring diffusion coefficients of oxygen ion conductive samples at room temperature(...)|2022 NSFE

YouTube
Héctor Corte-LeónDec 16, 2022
#fridayAFM Héctor here, your AFM expert at @[email protected] Calling out for people to share their Friday afternoon experiments. In case you wondered... the cheap ITO is also good for conductive measurement training. #ITO #CAFM #KPFM #thinfilm