Check out this editorial which aims to answer “33 Unresolved Questions in Nanoscience and Nanotechnology”.
Read the editorial published in ACS Nano: go.acs.org/e5h
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ACS Nano
10.4K posts
ACS Nano
@acsnano
Xiaodong Chen and ACS Nano team on nanoscience & nanotechnology research at the interfaces of chemistry, biology, materials science, physics, & engineering.
Washington, D.C. 가입일 Mart 2009
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Explore “High-Chirality Polariton Lasing from Symmetry-Broken Plasmonic Lattices”, co-authored by Prof. Teri Odom, Editor-in-Chief of @NanoLetters.
Read the article: go.acs.org/e4L
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Nanotrap-based sample pretreatment coupled with AI-assisted mobile analysis enables highly sensitive HIV detection from oral fluid, advancing rapid, accessible, and scalable point-of-care diagnostics.
Read it here 🔗 go.acs.org/e4e
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Self-assembled monolayers in perovskite solar cells are not just surface modifiers. 3D NanoSIMS reveals their penetration into grain boundaries, enabling surface–bulk defect passivation and improved device performance and stability.
Read it here 🔗 go.acs.org/e0c
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Translating protein recognition into DNA single-molecule readout: a nanopore digital immunoassay for sensitive plasma biomarker quantification.
Read it here 🔗 go.acs.org/dYw
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What if smaller liposomes could also be more stable? Plant-derived triterpenoids bend and bind lipid membranes into ≈20 nm stable nanocages, enabling robust skin delivery and regenerative potential.
Read it here 🔗 go.acs.org/dX9
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LiTFSI in a solid electrolyte enables self-healing: penetrated Li forms a passivating layer that halts further dendrite propagation even after initiation, boosting CCD and full-cell stability.
Read it here 🔗 go.acs.org/dWQ
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Faulted ZnS:Mn,Cu Nanorods Provide Nanoscale Mechanoluminescence Excitation in a Biologically Relevant Force Range’ reports stand-alone, mechanically excitable emitters for intracellular force sensing.
Read it here 🔗 go.acs.org/dUN
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Discover how to quantify the concentration of lipid nanoparticles using a simple, accurate method available in most laboratories: a standard dynamic light scattering device.
Read it here 🔗 go.acs.org/dUo
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Chemically tunable nanographene-derived monomers polymerize into two SPT 1D spin-chain platforms: dimerized S=1/2 and Hund-coupled S=1 Haldane, hosting topological edge states with qubit potential.
Read it here 🔗 go.acs.org/dS1
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Full top-gate metal coverage = no negative Vth drift. HfO₂ defect band above ITO conduction band = suppressed charge trapping. ITO/HfO₂ FETs achieve long-term stability, outperforming 2D benchmarks. Design rules for stable oxide electronics. #ACSNano
go.acs.org/dRr
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A single plasmonic nanoantenna can generate and regulate a nanometer–femtosecond localized chiroptical source, opening new routes to ultrafast chiral photonics and spectroscopy.
Read it here 🔗 go.acs.org/dR6
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Nanoholes on trembling mirrors couple light and sound! Metasurface co-localizes surface plasmons and hypersonic surface acoustic waves to tune light via the moving interface effect. #ACSNano
Read it here 🔗 go.acs.org/dOk
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Introducing a sub-100 nm vortex-based MTJ sensor with >200 mT dynamic range, low intrinsic noise, and high detectivity. Vortex-core dynamics suppress pinning noise for improved out-of-plane sensing.
Read it here 🔗 go.acs.org/dNN
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Precise, super-Nernstian and low noise pH sensing with 2D heterostructure ISFETs, from A. Tiwari, S. Sanjay (@soorajsanj), N. Bhat (CeNSE @CeNSEatIISc, IISc), and N. B. Mamun, A. Faruq, M. Hossain (Dhaka University)
Read it here 🔗 go.acs.org/dNx
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This new study introduces drug-free macrophage-mimicking nanoparticles that reshape the tumor microenvironment, reduce TAM infiltration, and suppress TNBC growth—matching anti-PD1 efficacy. #ACSNano @assafZinger
Read it here 🔗 go.acs.org/dNj
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D2O boosts carbon nanotube yarn energy harvesters! Neutral D2O electrolytes deliver up to 2.5x higher low-frequency peak power and a record energy conversion efficiency for neutral systems, promoting wearable energy harvesting!
Read it here 🔗 go.acs.org/dMy
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Liquid metals are revolutionizing wearable healthcare! Engineered into "bioinks", they create smart patches & sensors for real-time monitoring, healing, and drug delivery with the aid of 3D printing. #WearableTech #BiomedicalEngineering
Read it here 🔗 go.acs.org/dLY
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Ruby artificial spin ice enables direct realization of the Blume-Capel model through the toroidal magnetic moments, with controlled transitions from paramagnetic to ferrotoroidic states.
Read it here 🔗 go.acs.org/dHO
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A new study demonstrates quantum dots delivering bright, high-quality single photons at telecom wavelengths, moving fiber-compatible quantum networks closer to reality.
Read it here 🔗 go.acs.org/dFN
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