*Open for submissions* Nature Communications Communications Materials Communications Physics Scientific Reports invite latest works on #perovskite #tandem #photovoltaics from materials, devices, fundamentals, characterisation, modelling, stability, sustainability to reproducibility #solarcell nature.com/collections/hj…

New paper out today in Communications Materials: my thoughts on reproducibility in academic drug delivery research on MOFs, and how differing lab practices (and under-reporting of experimental data) are holding us back.

nature.com/articles/s4324…

〈プレスリリース〉“空気を読んで”、性質を変化させるポリマー材料～CO2に応答して劇的にタフになるエラストマーを実現～
jst.go.jp/pr/announce/20…

#JST #科学技術振興機構 #さきがけ

さきがけ「ナノ力学」領域、三輪洋平先生らの成果です。

Communications Materials 誌(Communications Materials)に報告しています。
nature.com/articles/s4324…

Following our Focus on Synthesis in flow
go.nature.com/3UhZK2g
We are hosting a webinar series on flow chemistry in synthesis.
Please see below for details of the speakers and to register.

In a recent paper on #4Dprinting (nature.com/articles/s4324…), we show how #3Dprinting defects and multiple materials can be used to create complex #shape transformations and a wide range of Gaussian #curvature
Mohammad J. Mirzaali Vahid Moosabeiki #additivemanufacturing

New insights from a theoretical study reveal how the motion of holes in an antiferromagnetic environment can lead to a state of high magnetic frustration, advancing our understanding of complex many-body systems

nature.com/articles/s4324…

This exciting collaboration was the result of one of the best workshops I’ve been to, organized by ⁦Devi⁩ and colleagues. What a great interdisciplinary team! nature.com/articles/s4324…

An alternative angle on design and application of materials summarized in the perspective below. Led by Prof Devi Stuart-Fox Science at Melbourne with many contributors from a workshop funded by University of Melbourne through the Hallmark Research Initiative on Bioinspiration. nature.com/articles/s4324…

Kelvin probe force microscopy is used to study the origin and mechanism of charge trapping in nanobubbles of MoS2 on a SiO2 substrate 🫧

nature.com/articles/s4324…

A machine learning approach is able to predict comprehensive phonon properties of ~80,000 cubic crystals spanning 63 elements, overcoming the computational burden of first-principles calculations

nature.com/articles/s4324…

A neural network interatomic potential is constructed for laser-excited silicon, which extends first-principles accuracy to ultra-large length and time scales
Group Garcia TheoPhys Kassel Pascal Plettenberg Martin E Garcia Universität Kassel

nature.com/articles/s4324…

A mathematical model for nanoparticles tethered with macromolecules shows catch-bond behavior, which may be useful for designing synthetic materials

nature.com/articles/s4324…

Neutron scattering experiments reveal that a collinear antiferromagnet can host spiral-like magnetic superstructures both in bulk form and small nanoparticle ensembles

nature.com/articles/s4324…

2D temporal-spectral maps are useful for characterizing and discriminating luminescence signals of materials that occur on widely different timescales 📶 Vosch Lab

nature.com/articles/s4324…

The surface morphologies of a monocrystalline vertical silicon nanowire-based lithium microbattery were investigated against performance 🔋

nature.com/articles/s4324…

The Functional 2D Materials Nature Conferences starts soon, hosted between Yonsei University and Nature Portfolio

We have an exciting line of speakers in the program!

My latest work on MOF monoliths mechanics was recently published by Communications Materials Nature Portfolio and it's open access! Check it out if you want to find out how MOF micropillars get squashed under compression! 💪
MOF@OXFORD
doi.org/10.1038/s43246…

CREST「革新的計測解析」領域の唯美津木先生らの成果です。

Communications Materials誌(Communications Materials )に報告しています。
nature.com/articles/s4324…

Using X-ray diffraction, Cornell Mechanical & Aerospace Engineering researchers are studying how microscale phenomena such as bending and fragmentation emerge in the nickel-based superalloy IN625 as it is being #3DPrinted . Communications Materials Atieh Moridi news.cornell.edu/stories/2023/1…