🚨 Just launched: Joint Virtual Special Issue on Nanomechanical Testing in Materials R&D IX in Materials & Design + MSEA!

Explore cutting-edge research in:
🔹 Nanoindentation
🔹 Multiscale mechanics
🔹 AI in #MaterialsScience

🔗 bit.ly/46WPnHz

#Nanomechanics #AI #Elsevier #ResearchInnovation

nanoMRI8 Welcome to NanoMRI8,

#event NanoMRI8 buff.ly/MQqNFQd 22-26 Jun 2026; Leiden, Netherlands #Nanoscale #MRI; detecting #spin systems with mechano-opto-electronic systems; #magnetic #resonance, #nanomechanics, #quantum #physics; #magnetism

Boriding, Global Science and Materials Conferences Hello all, Hope you're well. One of the things that can get lost sometimes in research is the simple joy of looking at data and understanding what is happening and why.

The latest edition of Modern Surface is out: www.linkedin.com/pulse/boridi...

Look out for the next issue in 2 weeks time!

#newsletter #conferences #nanomechanics #surfaceengineering #materials #diamond #DLC #graphene

Herre van der Zant, professor at the department of #QuantumNanoscience, was awarded an honorary doctorate for his pioneering work in #nanoelectronics and #nanomechanics from Chalmers University of Technology. He accepted the award at a ceremony in #Gothenburg on 23 May.

#SingleCell #Biophysics #AdhesionForce #AFM #CellMechanics #LiveCellAnalysis #LabelFree #BiotechInnovation #CellBiology #ForceSpectroscopy #LabAutomation #HighThroughput #Nanotechnology #Manipulation #SingleCellManipulation #SingleCell #Applications #Nanomechanics #adhesion #mechanobiology #SCFS

The latest edition of Modern Surface is out! Sign up to receive email updates on upcoming online events: lnkd.in/efucSu-M

Look out for the next issue in 2 weeks time!

#newsletter #conference #projectmanagement #DLC #tribology #nanomechanics

www.linkedin.com/pulse/projec...

🔗https://pubs.acs.org/doi/10.1021/acs.langmuir.4c03519
#Adhesion #Nanomechanics #Mechanobiology #AtomicForceMicroscopy #AdhesionStudies #ColloidalProbes #SurfaceScience #Nanomechanics #Mechanobiology #SingleCellResearch

High Temperature Creep, High Value Degrees and Coatings in the News Hello all, Hope you're well. The holiday season is fast approaching and I'm very much looking forward to some time off to rest, recharge and spend time with friends and family.

The latest issue of Modern Surface from Surface Ventures is now available, read it on LinkedIn here: linkedin.com/pulse/high-t...

#newsletter #nanomechanics #hightemperature #coatings #degree

What to do about creep in high temperature nanoindentation? In this live event, Prof Beake will introduce the challenge posed by much higher creep in nanoindentation tests.

Don't miss our next Workshop from Prof. Ben Beake on Thursday 12th September at 4:00 pm BST. Register now: my.demio.com/ref/K1JYKnV8...
Check out our partner Micro Materials Ltd, this is the best way to support this event.
#webinar #nanomechanics #hightemperature

Multi-technique and multi-scale nanomechanics Dr Hannah Zhang will give an overview of Instrumented indentation-related tests.

Calling anyone interested in #science #engineering #surfaceengineering #nanoindentation #nanomechanics, Surface Ventures next Keynote is on Thhurs 30th May at 3pm BST. Even if you can't attend, register anyway to receive a replay of the event.

my.demio.com/ref/CwZ91KzL...

The GDR #MecaQ* 4th Annual Meeting is taking place today and tomorrow at C2N (#ParisSaclay)!

>*#quantum #optomechanics #nanomechanics

Welcome to invited speakers from @InstitutNeel @ICFOnians @UCL @ImnCsic @uni_copenhagen @MPI_Light

mecaqcolloq2019.sciencesconf.org

Topological acoustics at the nanoscale #newsC2N #topology #nanomechanics - collaboration with @MPQlab published in @PhysRevB

>

c2n.universite-paris-saclay.fr/en/laboratory/… doi.org/10.1103/PhysRe…

Topological nanophononic states by band inversion Nanophononics is essential for the engineering of thermal transport in nanostructured electronic devices, it greatly facilitates the manipulation of mechanical resonators in the quantum regime, and it could unveil a new route in quantum communications using phonons as carriers of information. Acoustic phonons also constitute a versatile platform for the study of fundamental wave dynamics, including Bloch oscillations, Wannier-Stark ladders, and other localization phenomena. Many of the phenomena studied in nanophononics were inspired by their counterparts in optics and electronics. In these fields, the consideration of topological invariants to control wave dynamics has already had a great impact for the generation of robust confined states. Interestingly, the use of topological phases to engineer nanophononic devices remains an unexplored and promising field. Conversely, the use of acoustic phonons could constitute a rich platform to study topological states. Here, we introduce the concept of topological invariants to nanophononics and experimentally implement a nanophononic system supporting a robust topological interface state at 350 GHz. The state is constructed through band inversion, i.e., by concatenating two semiconductor superlattices with inverted spatial mode symmetries. The existence of this state is purely determined by the Zak phases of the constituent superlattices, i.e., the one-dimensional Berry phase. We experimentally evidenced the mode through Raman spectroscopy. The reported robust topological interface states could become part of nanophononic devices requiring resonant structures such as sensors or phonon lasers.

Topological acoustics goes nano.

Our article on topological nanophononics is online!
Check it out:@C2N_com #newsC2N #topology #nanomechanics

doi.org/10.1103/PhysRe…