NANOGEIOS and AIDEN DIGITAL LABS have developed the IRIS-X platform, a breakthrough technology that reduces the cost of natural hydrogen exploration by 95-98% and cuts deployment time from 18 months to 8 weeks, enabling rapid and sustainable resource discovery.

A breakthrough in sustainable resource exploration technology

MIAMI, FL — September 18, 2025 — Growing global demand for clean energy and accelerating climate change mitigation efforts have intensified the search for sustainable alternatives. Natural hydrogen emerges as a promising zero-carbon energy solution due to its high energy density and clean combustion characteristics. Among exploration methods, conventional drilling and seismic surveying remain costly and inefficient; however, their dependence on extensive surface disturbance and multi-million dollar budgets limits large-scale implementation. Advanced subsurface detection offers a practical alternative by leveraging Earth’s natural hydrogen and helium resources, but high operational costs, extended timelines, and environmental impacts pose significant challenges for sustainable resource development.

To address this, a research team led by  Abdelmoumen Shad Serroune at NANOGEIOS Laboratory, in partnership with AIDEN DIGITAL LABS, developed a robust and cost-effective exploration platform capable of high-performance resource detection in complex geological environments. Dr. Serroune shares the motivation behind this breakthrough: “Conventional exploration methodologies, though established within the industry, face significant challenges including prohibitive costs, extended deployment periods, and environmental concerns that hinder commercialization. Our research is driven by the mission to develop economically viable and environmentally sustainable resource exploration technology to overcome these critical barriers.” Their findings were first published in the International Journal of Medical Science and Clinical Invention in July 2025. 

The team designed the IRIS-X (Integrated Reconnaissance and Imaging System – eXtended) an exploration platform that overcomes limitations of conventional drilling and seismic methods in natural hydrogen and helium exploration with the unique ability to be adapted for rare earth minerals, noble gases and minerals. They employed proprietary nano biomarker technology combined with advanced metal-oxide semiconductor (MOS) sensor arrays to synthesize selective detection matrices with crystalline-amorphous heterostructures. The nano-biomarkers are engineered to latch onto target molecules like hydrogen and helium with remarkable precision, achieving near-perfect binding efficiencies of 99.1% and 98.4%, respectively. During deployment, controlled nitrogen carrier injection facilitates uniform subsurface distribution while real-time magnetic tracking systems provide three-dimensional pathway reconstruction capabilities. 

Comprehensive field testing in Indonesia’s Padang region demonstrated outstanding resource detection performance. Over a 14-week validation campaign, IRIS-X exhibited exceptional analytical capabilities with 92% detection efficacy across variable lithological settings. 

The platform successfully quantified hydrogen accumulations totaling 18.5±2.3 million cubic meters while maintaining measurement precision within ±5% variance across challenging tropical conditions. Durability was confirmed through sustained operation across diverse geological formations including serpentinization zones and radiolysis environments. Crucially, the platform demonstrated exceptional cost-effectiveness with operational expenditures of $1,500,000 per campaign compared to conventional methods requiring $5-20 million, representing a 95-98% cost reduction while compressing deployment timelines from 6-18 months to 6-8 weeks.

The study highlights several distinct advantages. The IRIS-X platform synergistically combines high-sensitivity detection with optimized operational efficiency through radial well configurations covering 20,000 square meters per deployment with the ability to reach 100.000 sqm. The integrated AI-driven data processing prevents measurement artifacts while enabling real-time resource quantification. The overall design provides exceptional environmental stewardship with zero operational incidents and minimal surface disturbance. Together, these features enable cost-effective, scalable resource exploration directly from natural formations while reducing environmental impact and supporting decarbonization across energy-intensive sectors. 

AMS Serroune emphasizes, “Our breakthrough enables direct natural hydrogen and helium exploration from subsurface formations using advanced nano biomarker technology, opening vast geological resources for clean energy generation.” He adds, “The enhanced exploration systems demonstrate remarkable economic viability with 95-98% cost reduction compared to conventional methods, making resource discovery significantly more accessible for commercial development.“. 

Looking toward future applications, the IRIS-X architecture supports expansion into critical mineral exploration through aptamer-functionalized nano biomarker systems specifically engineered for uranium, thorium, lithium, cobalt, and rare earth element detection, positioning the technology at the forefront of the global energy transition. 

In conclusion, this work establishes a nano biomarker-mediated detection strategy that simultaneously addresses sensitivity, efficiency, and environmental challenges in subsurface resource exploration. Dr. Serroune notes, “Our technology will accelerate clean energy adoption by enabling rapid identification of natural hydrogen resources while maintaining superior environmental standards.” By enabling efficient and sustainable subsurface exploration, this study provides a blueprint for next-generation resource discovery, paving the way for large-scale clean energy infrastructure development. 

About AIDEN DIGITAL LABS
AIDEN DIGITAL LABS is a global research and development firm specializing in the integration of information technology, nanotechnology, and sustainable solutions, focused on AI-powered tools and environmental innovations for energy and resource management. 

About NANOGEIOS
NANOGEIOS is a global technology company headquartered in Miami, Florida, with research facilities in Osaka, Japan, and Paris, France. The company specializes in integrating nanotechnology, artificial intelligence, and advanced sensing to revolutionize resource identification and exploration through the IRIS-X platform. 

Contact:
Media Relations: Helena Dilbar S. 
Investor Relations: Professor Kazushi & AMS Serroune
Website: www.iris-exploration.com 

Email: contact@aiden.ventures 

Email: contact@nanogeios.io 

Publication: IJCNIS

Publication: SSRN Elsevier

Publication: Valley International 

Media Contact

Organization: GEIOS TECHNOLOGIES

Contact Person: Sandra Lebiewicz

Website: https://www.geios.net

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Country:United States

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