Researchers developed a PFAS- and NMP-free cellulose nanofibril binder that improves dispersion, adhesion, ion transport, and structural integrity in high-loading lithium-ion battery positive electrodes. The binder enabled NCM811 electrodes with high mass loading, strong areal capacity, and improved cycling stability, suggesting a more sustainable route to high-energy battery manufacturing.
Researchers developed printable 3D achromatic metalenses using grayscale electron beam lithography, dry etching, and nanoimprint lithography to control nanoscale height and shape. The metalenses focused red, green, and blue light at nearly the same plane and enabled proof-of-concept full-color OLED near-eye VR imaging with reduced chromatic blur.
This paper proposes a convergent curriculum framework that integrates nanotechnology, MEMS, magnetic materials, and generative and agentic AI to strengthen U.S. advanced-manufacturing workforce development. It argues that future competitiveness depends on stackable credentials, shared lab infrastructure, industry-academia partnerships, and training that links fabrication, metrology, automation, data interpretation, and ethical oversight.
This review examines how nanotechnology, topological materials, Majorana fermions, Weyl semimetals, and quantum simulation are converging to shape the Second Quantum Revolution.
It highlights possible routes toward fault-tolerant quantum computing, nanoscale medicine, low-power electronics, energy technologies, and environmental applications, while noting that many advances remain developmental.
The study introduces an ultrasound-assisted polymer-coated nanowire sponge contact electrocatalysis system that disinfects bacteria, degrades dyes (6PPD-quinone), and reduces heavy metal ions in water. By combining reactive oxygen species generation with electroporation, the reusable system achieved rapid microbial inactivation and showed potential for scalable, residue-free water treatment.
Alemnis AG is proud to introduce MINDS (Mechanical Innovative Nanotechnology Diagnostic Software), a new software platform designed to help laboratories automate complex mechanical testing workflows and improve reproducibility.
AI-driven image analysis is transforming nanofiber characterization by moving beyond manual diameter measurements toward faster, multiparameter assessment of fiber morphology, pore structure, alignment, and defects. The review highlights a practical future in which validated AI tools, conventional software, and smart manufacturing systems work together to improve nanofiber quality control and process optimization.
Green-engineered MoS2 nanosheets were coated onto nonwoven fabric using a citric-acid-assisted ethanol-water process to create a flexible nanotechnology-enabled smart textile. The resulting nanosheet-based sensor exhibited pressure-sensitive electrical responses, wash-retained functionality, cytocompatibility, and qualitative antibacterial activity, supporting its potential for future wearable and biomedical sensing applications upon further validation.
Researchers optimized green synthesis of antibacterial copper oxide nanoparticles from orange leaf extract, enhancing performance with chitosan composites.
New research explores silicon nanorods in metasurfaces for polarization holographic encryption, addressing image recovery and optical performance challenges.
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