Lotiskorea Newsletter Vol.9 - Introducing Protochips Publication

2022. 10. 10.

Lotiskorea Newsletter Vol.9

2022. 10. 10

New release - Axon Dose! - First Module of Axon Platform

Perfect tool for Dose Management

안녕하세요, 로티스코리아입니다.

Protochips 제품을 사용한 최신 publication 자료들을 소개합니다.

해당 문헌들은 Protochips 제품을 이용한 publication 자료들로, 저희 Protochips 제품을 사용하실때 참고해 주신다면 도움이 될 것 같습니다.

Researchers at University of Virginia used operando TEM to study pitting corrosion in stainless steel.

Using a Protochips #PoseidonSelect they performed liquid-TEM studies during applied potentiodynamic polarization and observed the dissolution of MnS in inclusions in a lamella of 304L stainless steel.

Read their paper published in Corrosion Science here: https://lnkd.in/g5yUxGwv.

Researchers, Caitlin Taylor, Tina Nenoff, Sara Pratt, and Khalid Hattar utilize #LiquidEM to study the crystallization processes of rare earth elements. You can read more about there work in their Nanoscale Advances

paper: https://lnkd.in/ehbt4wU7

Struggling with depositing sample accurately on your electrodes for operando electrochemistry studies in the TEM? This elegant solution, reported by Jędrzej Morzyt of the Caterina Ducati group at University of Cambridge utilizes aerosol-jet printing technology to deposit lithium battery powders onto the electrode of interest.

You can learn more about it here: https://lnkd.in/g5ZQcCRk

Researchers at Universiteit Utrecht University have recently published on how yolk-shell particle behaviour can be influenced by an AC field using the #PoseidonSelect in an #LiquidEM environment. The mobility of the core particles was impacted just by changing the AC field creating a frequency-dependent mobility.

You can read more about their research here: https://lnkd.in/g-HC5xi4

It is of importance to see the polymers in their native environment. The group at Northwestern University has made a great step in showing you can not only image the polymers in water, but in many other organic liquids as well! This opens up a whole array of different reactions that can be observed in different media.

Congratulations!
Joanna Korpanty
Nathan Gianneschi
Karthikeyan Gnanasekaran
Cadapakam Venkatramani
Nanzhi Zang
Northwestern University

Please follow the link for more information:
https://lnkd.in/gWSKM3gF

Check out these incredible results from Chinese Academy of Sciences and Tsinghua University just published in Nature. Using the Protochips #Atmosphere system they were able to observe the deformation of #zeolite pores at incredible resolution during the benzene adsorption.

Tsinghua University

Read more on their research here: https://lnkd.in/gnkFMPJi

MOF derivatives display superior electrical conductivity and thermal stability and have therefore drawn widespread attention. Recently, researchers from Northwest University in Xi'an have combined in situ and ex situ techniques to observe the pyrolysis process of ZIF materials.

Find out about their research here:
https://lnkd.in/gCWN66KF

Are you interested in observing emulsion reactions in liquid? Then please read the following new paper published by the group at #NorthwesternUniversity! Flow and mixing was used to obtain some beautiful emulsions and then these were images using electron microscopy. With the methods they used, they were able to shed light and create further insight in the mechanisms of formation and demulsification.

Congratulations to Maria Vratsanos and Nathan Gianneschi!

Follow the link to read more:
https://lnkd.in/gF9f7xxd

Please take a look at this great new paper just published in #JACS by the group at Cornell University. They are combining 4D-STEM and Electrochemistry all with in situ #LiquidEM. In this study the authors look at the corrosion of bulk electrodes, impacting the structural degradation.

Yao Yang
Cornell University

If you want to know more:
https://lnkd.in/geTZrvzb

In this new exciting paper the researchers have looked into grain boundary engineering by electron beam patterning using the #FusionSelect holder. If you want to know about how this atomic precision technique can be capable of engineering precise nanomaterials, please follow the link:

https://lnkd.in/dxrWePfh

In this newest published research the #FusionSelect was used to heat and efficiently quench antiskyrmions. Different lattice formations were observed ranging from triangular, circular or rotated-square geometry. These nice results from the University of Tokyo demonstrate a roadmap for generating and controlling antiskyrmions in a confining geometry.

Read more about the paper here:
https://lnkd.in/dGfYEF3e

In this new publication the researchers combined X-ray absorption spectroscopy and #LiquidEM electrochemistry. Using small-angle X-ray scattering, they were able to probe particle-particle interactions of large ensambles of nanoparticles, while doing electrochemistry simultaneously! Please take a look at their research here:

https://lnkd.in/gecsg-an

A new paper has come out showing the behavior of memrestive devices using the #FusionSelect with electrical characterization! The authors are looking at one dimensional Ta2O5 nanotubes and using EELS to look at the changes while biasing the sample. Do you want to learn more about their research? Follow the link:

https://lnkd.in/ge8umgAd

또한 이외에도 궁금하신 Application 자료나 문의 사항이 있으시다면 언제든 편하게 연락 부탁드립니다.

감사합니다.

문의

Email : skan@lotiskorea.com

Tel : 010-3185-8792

Lotiskorea Newsletter를 구독하고 이메일로 받아보세요

Gatan Camera, Gatan Sample prep, Protochips

이전 뉴스레터

Lotiskorea Newsletter Vol.8

2022. 8. 9.

다음 뉴스레터

Lotiskorea Newsletter Vol.10 - Protochips Electrochemistry webinar &Publication

2022. 11. 30.

Lotiskorea Newsletter

Gatan Camera, Gatan Sample prep, Protochips

이 페이지는 스티비로 만들었습니다.