NANOGEIOS with Aiden Digital Labs Publish Groundbreaking Scientific Paper on Advanced Nanomembrane Technology

In our latest blog post, we share exciting news about the publication of our scientific paper on the KAIGEN dual-layer nanomembrane technology for methane capture. Set to be featured in a leading peer-reviewed journal, the paper details how our membrane achieves over 90% methane capture efficiency while selectively filtering CO₂, offering unprecedented performance in methane separation. Explore how our collaboration with Nanogeios has advanced sustainable energy solutions and paved the way for cleaner energy practices.

7/8/20241 min read

blue red and yellow lights
blue red and yellow lights

Aiden Digital Labs is excited to share the publication of our latest scientific research, now available with

DOI: https://doi.org/10.18535/ijsrm/v12i10.ec05.

This paper presents groundbreaking advancements in our KAIGEN project, focusing on the development and performance of our dual-layer nanomembrane technology for methane capture.

Published in a peer-reviewed journal, this work delves into how our cutting-edge nanomembrane technology achieves over 90% efficiency in methane separation, while selectively filtering CO₂. This innovation represents a leap forward in mitigating methane emissions, and it’s the result of extensive research and collaboration with Nanogeios.

Key Highlights:

  • In-depth analysis of our two-layer nanoparticle design, significantly enhancing gas separation performance.

  • Performance metrics revealing high permeance rates and energy efficiency in methane capture.

  • Exploration of nanotechnology’s role in advancing sustainable energy solutions and reducing global carbon emissions

“This paper marks a major milestone in the realm of nanotechnology-driven environmental solutions,” said Mr LEE YONGSON at Aiden Digital Labs. “It showcases our commitment to developing transformative technologies that address the global methane challenge.”

The publication also discusses the integration of advanced genetics and materials science to further strengthen the capabilities of our dual-layer membrane technology for industries seeking to meet sustainability targets and reduce their carbon footprints.

We invite you to explore the full paper and stay tuned for more updates on this innovative research!