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AI's growing energy thirst call for smarter solutions! A new study unveils an all-nitride system using E-field-driven nitrogen ionic motion to tune magnetism, paving the way for energy efficient computing. Read it here 🔗 go.acs.org/czT

This new Collection celebrates the 50th anniversary of Surface-enhanced Raman scattering. It highlights current research that shapes the field and draws emerging directions that could stimulate further research and development. Read Now 👉 go.acs.org/cAO

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. ➡️go.acs.org/cBI

Systematic study reveals how solvent dynamics in gel polymer electrolytes govern Li⁺ transport and polysulfide confinement—enabling improved stability in lithium-sulfur batteries. #ACSNano #EnergyStorage Read it here 🔗 go.acs.org/cCH

A reduced graphene oxide sensor array modified with metal-organic frameworks and metal phthalocyanines, providing a scalable platform for precision diagnostics of respiratory tract infections. Read it here 🔗 go.acs.org/cD1

Non-cubic Au bipyramid hosts twisted domains. Thermal annealing at 800 °C untwists them while stabilizing unusual non-cubic lattices. Read it here 🔗 go.acs.org/cDh

OMV-cloaked immunostimulatory nanoplatform reprograms T cell metabolism and boosts tumor immunity. #ACSNano #Immunotherapy #Nanomedicine Read it here 🔗 go.acs.org/cDr

Learn how machine learning accelerates peptide nanomaterial discovery by navigating complex sequence space and reducing experimental trial-and-error. #ACSNano #Nanotechnology Read it here 🔗 go.acs.org/cFq

Breakthrough in CVD treatment! Sprayable reactive oxygen species (ROS)-responsive hydrogel coating for vascular balloons restores endothelial barrier integrity, scavenges ROS, and boosts NO delivery to prevent restenosis. Read it here 🔗 go.acs.org/cG3

This new Collection celebrates the 50th anniversary of Surface-enhanced Raman scattering. It highlights current research that shapes the field and draws emerging directions that could stimulate further research and development. Read Now 👉 go.acs.org/cF9

Precision medicine diagnostics reimagined—Bio-SCOPE merges chromatic & kinetic molecular fingerprinting for ultra-sensitive multiomic profiling: Detect femtomolar miRNA, mutant DNA & protein. #ACSNano Read it here 🔗 go.acs.org/cJ1

This new Collection celebrates the 50th anniversary of Surface-enhanced Raman scattering. It highlights current research that shapes the field and draws emerging directions that could stimulate further research and development. Read Now 👉 go.acs.org/cK4

ACS Open Science Conversations w/ Maria Lukatskaya, Associate Editor @ACSNano. Prof. Lukatskaya shares her experience publishing under an ACS read and publish agreement, her thoughts on preprints, and how she sees OA evolving in the future. Read now 👉 go.acs.org/cK9

Femtosecond laser ablation enables the universal and scalable synthesis of precisely shaped nanoparticles from over 50 van der Waals (vdW ) materials with tunable properties and high structural fidelity. Read it here 🔗 go.acs.org/cKk

Silicone-based superhydrophobic surfaces that boost their own drop speeds? Self-acceleration is achieved through adaptive charge suppression - unlike fluoro-based variants. Fluoro-free, sustainable, and antistatic! Read it here 🔗 go.acs.org/cKB

"The Regulation of Ion Transport Microenvironment in Micropores to Precisely Construct Porous Polymer Electrolytes for Solid-State Lithium–Metal Batteries" Read it here 🔗 go.acs.org/cKT

First to show that even when SWCNT nIR spectra appear unchanged, hidden features exist. Sooyeon Cho Lab @ SKKU uses machine learning to decode these subtle signatures to accurately distinguish different viruses. Read it here 🔗 go.acs.org/cNi

MoOCl₂ is a natural van der Waals hyperbolic crystal enabling low-loss, broadband polarization control in the visible range—unlocking ultrathin polarizers and compact photonic devices. Read it here 🔗 go.acs.org/cOQ

Researchers show that sphingolipids accumulated in Globoid Cell Leukodystrophy self-assemble into cytotoxic fibrils. Small molecules can mitigate this fibril formation, revealing a potential therapeutic avenue. Read it here 🔗 go.acs.org/cPh

Thermoelectrics traditionally harvest electricity from heat. In this work, researchers flipped the narrative and demonstrated their ability to turn cold energy from evaporation into electricity with zero energy input. Read it here 🔗 go.acs.org/cRu