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IBL-26-0453

Hybrid Metal Nanomotors for Glucose-Catalyzed Chemical Propulsion and Enhanced Molecular Transport into Cells, and Their Manufacturing Method

Listed on
2026-07-03
Hybrid Metal Nanomotors for Intracellular Molecular Transport

This technology presents Janus nanostructured nanomotores with asymmetric hybrid metal catalytic interfaces and their manufacturing method, enabling the transport of molecules into living cells.

The need arose for nanomotores capable of overcoming Brownian motion and enhancing directional movement and chemical diffusion, all while utilizing biocompatible fuel.

This technology features an open hollow structure composed of a platinum mesh shell and internal gold nano-seeds. Through asymmetric catalytic interfaces, it enables directional movement and enhanced chemical diffusion and cellular transport.

Key Features:
  • Janus Nanostructure with Asymmetric Hybrid Metal Catalytic Interfaces
  • Platinum Mesh Shell and Internal Gold Nano-Seed Structure
  • Open Hollow Structure
  • Directional Movement and Intracellular Molecular Transport
Pohang University of Science & Technology
In-soo Lee | Tae-wan Kwon | Niti Kumari
Document
Date of application:
2021-05-04
|
Patent registration number:
10-2627437
Industry
bio
advanced materials
Technology
New materials
Country
Korea
Family Patent

N/A

Price
가격협의
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