Skip to main content
dd
CIC nanoGUNE
  • en
  • es
  • eu

User account menu

  • Sartu

Main Menu ES

  • nanoGUNE
    • Hitz bitan
    • Antolakuntza eta finantzaketa
    • Pertsonak
    • Bat egin
    • Bizi
    • Prentsa-bulegoa
    • nanoPeople
  • Ikerketa
    • Ikerketa
    • Argitalpenak
    • Proiektuak
    • Kanpo-zerbitzuak
  • Transferentzia
    • Transferentzia
    • Enpresa berriak
    • PI Zorroa
    • Industry collaborative research positions
    • Strategic lines
    • Kanpo-zerbitzuak
    • Albisteak
  • Formakuntza
    • Master projects
    • Gradu amaierako proiektuak
    • Udako praktikaldiak
    • Doktoretza programa
  • Gizartea

User menu

  • Sartu
  1. Azala
  2. Nanoingeniaritza
  3. Best Poster Award for Yunfeng Li

Best Poster Award for Yunfeng Li

2025/08/04

Yunfeng Li from the Nanoengineering Group received the Best Poster Award at this year’s International Conference on Optical MEMS and Nanophotonics (OMN 2025), held in Chiang Mai, Thailand.

 

half
Best Poster Award for Yunfeng Li, Chiang Mai, Thailand.

The conference paper, titled “Bound States in the Continuum in Hybrid Plasmonic-Photonic Architectures”, was co-authored by Anup Shrivastava and Jost Adam from the University of Kassel, Germany, and by Eneko Lopez and Andreas Seifert from the Nanoengineering Group at nanoGUNE. The paper will be published on the IEEE Xplore digital platform.

The research focuses on plasmonic metasurfaces that support bound states in the continuum (BICs) and offer high sensitivity for optical biosensing. A dual-ribbon metal-insulator-metal metasurface was designed using electromagnetic simulations, fabricated by electron-beam lithography. It hosts robust quasi-BIC (qBIC) resonances at normal incidence without angular tuning. The fabricated device is extremely robust against fabrication tolerances, which is highly critical for plasmonic qBICs. The achieved sensitivity is larger than 400 nm per refractive index unit, and integrated into a microfluidic chip, this metasurface detects anti-insulin antibodies down to 1.9 nM. This alignment-free, robust platform provides a practical route toward high-performance, label-free biosensing.

Tags
Plasmonics
Nanophotonics
  • whatsapp
  • facebook
  • twitter
  • linkedin
  • print

Lotutako albisteak

  • 2025/07/22

    NanoGUNEren enpresa-ekimen bat EIT Jumpstarter programako Osasun kategoriako 10 onenen artean hautatua izan da

  • 2025/07/02

    Breaking Ohm’s Law: Nonlinear Currents Emerge in Symmetry-Broken Materials

  • 2025/07/01

    MindSens, alzheimerra odol-tanta batez detektatzea

  • 2025/06/27

    Sofia Ferreira Teixeira, Inspira Gazteak 2025 Sariarekin saritua

  • 2025/06/05

    SOMMa 2025: bikaintasun zientifikoaren kudeaketa Donostiara iritsi da

  • CIC nanoGUNE
  • Tolosa Hiribidea, 76
  • E-20018 Donostia / San Sebastian
  • +34 943 574 000 · nano@nanogune.eu
  • Facebook Twitter Youtube Linkedin Instagram Subscribe to our Newsletter

Menú pie principal

  • nanoGUNE
  • Ikerketa
  • Transferentzia
  • Formakuntza
  • Gizartea
  • nanoPeople

Menú pie servicios

  • Kanpo-zerbitzuak
  • Argitalpenak
  • Mintegiak
  • Bat egin
  • Prentsa-bulegoa
  • Kontratatzailearen profila
  • Corporate Compliance

Menú pie grupos

  • Nanomagnetismoa
  • Nanooptika
  • Self AssemblyAutomihiztadura
  • Nanobiosistemak
  • Nanogailuak
  • Mikroskopia Elektronikoa

Menú pie grupos 2

  • Teoria
  • Nanomaterialak
  • Detekzio Kuantikoko Mikroskopia
  • Nanoingeniaritza
  • Hardware Kuantikoa

Funded by

  • EJ/GV
  • Diputación
  • FEDER
  • FEDER
  • Ministerio de Ciencia e Innovación

Member of

  • BRTA
  • SOMM

Distinctions

  • Distinción de Excelencia María de Maeztu 2022-2025
  • Excellence Research
  • UNE-166002

Menú legales

  • Irisgarritasuna
  • Lege-oharra
  • Pribatutasun politika
  • Cookiei buruzko politika
  • Konfidentzialitate politika
by ACC