Mastodawn

Các nhà khoa học vừa tạo ra chip nano lỏng với khả năng ghi nhớ như não bộ! Chip MOF này điều khiển dòng proton phi tuyến tính, hoạt động như một memristor ion. Phát hiện này mở ra hướng đi mới cho công nghệ iontronics và máy tính mô phỏng sinh học.

#KhoaHoc #CongNghe #Memristor #NanoFluidics #BrainLikeComputing #Science #Technology #IonTrònics

https://www.reddit.com/r/singularity/comments/1o3fyja/scientists_create_nanofluidic_chip_with_brainlike/

Jocelyn Etienne Sep 9, 2025

Pre-announcement of an #OpenPosition for a #lecturer in #Liphy (lab of #interdisciplinary #physics) in #Grenoble, #France

> Poste de #MCF section 28 (#Physique : Milieux denses et matériaux), sur un profil #dynamiqueDesFluides à l’échelle #nano et micro.

https://liphy.univ-grenoble-alpes.fr/en/research/teams/modi-soft-matter-organization-dynamics-and-interfaces

#nanofluidics #microfluidics #fluidDynamics #nanoscale

michael Sep 1, 2023

31-Aug-2023
Breakthrough: Peering into nanofluidic mysteries one photon at a time

EPFL and University of Manchester researchers unlock secrets of nanofluidics using a 2D material and light
https://www.eurekalert.org/news-releases/999494

#science #nanoworld #nanofluidics #BoronNitride #fluorescence #2Dmaterials

Breakthrough: Peering into nanofluidic mysteries one photon at a time

A discovery in the field of nanofluidics could shake up our understanding of molecular behavior on the tiniest scales. Research teams at EPFL and the University of Manchester have revealed a previously hidden world by using the newly found fluorescent properties of a graphene-like 2D material, boron nitride. This innovative approach enables scientists to track individual molecules within nanofluidic structures, illuminating their behavior in ways never before possible. The study's findings are published in the journal Nature Materials.

EurekAlert!

michael Jun 23, 2023

23-Jun-2023
Bridging the gap for precision medicine: nanofluidic aptamer nanoarray measures individual proteins

A pioneering step towards digital assays at cellular concentrations

https://www.eurekalert.org/news-releases/993362 #science #nanoworld #aptamers #proteins #nanofluidics #sensors

Bridging the gap for precision medicine: nanofluidic aptamer nanoarray measures individual proteins

An international team led by Professor Yan Xu from Osaka Metropolitan University has developed a groundbreaking nanofluidic device, named NANa, capable of stochastically capturing and digitally detecting individual proteins at cellular concentrations. This tool, vital for precision medicine, is designed to handle tiny volumes equivalent to a single cell's contents and can identify single biomolecules even in high-concentration environments. The team plans to conduct further demonstrations using actual cell samples and explore the integration of this tool with AI and biological big data. This research could potentially revolutionize personalized disease prevention and treatment.

EurekAlert!

Beilstein-Institut Apr 13, 2023

📢 Submit your research to the thematic issue “Micro- and #nanofluidics for all: affordable, accessible, & open technologies” ✏️ edited by Vittorio Saggiomo @V_saggiomo, Maïwenn Kersaudy-Kerhoas @FrugalMKK, Tobias Wenzel & Mirela Alistar in the Beilstein Journal of Nanotechnology.

👉 https://www.beilstein-journals.org/bjnano/series/95/?M=y

#DiamondOpenAccess 💎🔓 #BJNANO