This year marks the 25th anniversary of Nano Letters. To celebrate this milestone, the Nano Letters editorial team put together a prospective piece reflecting on advancements in the field over the next 25 years. Read the Editorial 👉 https://t.co/iOhZFVqg6o

We are pleased to welcome the 2025 Early Career Board, representing 16 countries. Get to know them: https://t.co/pZ0nQyHwKQ

This year marks the 25th anniversary of Nano Letters. To celebrate this milestone, the Nano Letters editorial team put together a prospective piece reflecting on advancements in the field over the next 25 years. Read the Editorial 👉 https://t.co/HVAU5Y5Evm

We are pleased to welcome the 2025 Early Career Board, representing 16 countries. Get to know them: https://t.co/X39s8sfw1L

This year marks the 25th anniversary of Nano Letters. To celebrate this milestone, the Nano Letters editorial team put together a prospective piece reflecting on advancements in the field over the next 25 years. Read the Editorial 👉 https://t.co/saNQOzm9LZ

Single layers of Fe₃GeTe₂ and Fe₃GaTe₂ are ideal for high-density magnetic memory devices. Recent research shows that their flakes exhibit noncollinear edge magnetism that allows fast magnetization switching at low current densities. Read it here 🔗 https://t.co/UBM7oeQZBG

This new Special Issue highlights key research spanning synthesis, characterization, and computation where nanoscience plays a front-and-center role in advancing the development, understanding, and applications of energy-related materials and phenomena. ➡️ https://t.co/05FWmEjFsp

This new Special Issue highlights key research spanning synthesis, characterization, and computation where nanoscience plays a front-and-center role in advancing the development, understanding, and applications of energy-related materials and phenomena. ➡️ https://t.co/miJXXLFBFy

In-situ atomic-scale electron microscopy studies reveal formation of distinct Au and AuSe single/poly-crystalline products on CdSe that are mediated by the oil-/water-phase microenvironment. https://t.co/XceROSo59c

PEDOT is going one-dimensional! Lithography-free conductive polymer nanowires were interfaced with both algae and human blood stem cells paving the way for 1D organic bioelectronics. @lunduniversity @nanolund @MultiparkL @HjortsX @OlssonRoger https://t.co/e75mhg8dgj

Discover the potential of Mem-Emitters! A new class of devices combining memory and light emission, leveraging 2D materials and beyond for advanced optoelectronic applications. https://t.co/20uahSlFF6

🔓 #OpenAccess: "Nanoscale Ligand Spacing Regulates Mechanical Force-Induced Cancer Cell Killing" by Veena et al. @iiscbangalore @BE_IISc @AjayTijore @nano_jenn @MBIsg @S_ManasaVeena https://t.co/yqQ6WuwZHm

Researchers from the Department of Quantum Matter Physics at the University of Geneva demonstrate the possibility to tune the charge density wave phase transition by means of electron doping in a semiconducting transition metal dichalcogenide. https://t.co/zIqDdfiiHV

Breaking now in @NanoLetters: Combining tilted lasers and moiré engineering unlocks scalable photocurrents and topological states in #graphene. A leap forward in quantum materials! @foatorres @HernnCalvo2 @mberdakin https://t.co/cewiA3odll

Reversible Piezochromism of Platinum(II) and Palladium(II) Dimers in Molecular Single Crystals @uni_muenster @RBratschitsch @2dsemiconductor https://t.co/LJRJ2RdoKY

This work explores the root causes of calendar aging in silicon-containing batteries from a top-down perspective and quantifies the decay across various scales. Si significantly exacerbates parasitic reactions during calendar storage. https://t.co/F2Nz8cHFnu

Leveraging physics-informed AI for topological plasmonics! This study explores unidirectional edge modes in plasmonic devices, combining deep learning and advanced photonics. #NanoLetters #AI #Nanotechnology https://t.co/6N2dsXcDFB

A recent work from TIFR Hyderabad demonstrates the potential of lithium based photo batteries by dissecting the roles of light and heat in such electrochemical systems. @TnnLab @TIFRH_buzz @tharangattu https://t.co/ro0k7FoF5I

Leveraging the 90-year-old Hume-Rothery rule, a tetra-metallic Mo-Pd-Ni-Fe alloy is designed as an outstanding bifunctional electrocatalyst for green hydrogen production @sayanb_iiserk group @Surajit41325237 @Vishwadeepa09 @SupritiDutta31 @dcsiiserkol https://t.co/ndkn4Nm0VH

Two-dimensional (2D) semiconductors have attracted a considerable amount of interest as channel materials for future transistors. Patterning of 2D semiconductors is crucial for separating continuous monolayers into independent units. https://t.co/ppzmGRxNFW