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We weaponize the invisible. Extended nanotechnology that delivers overmatch where it matters most.

Engineering Advantageat the NanoscaleNanotech to Detect

>89%thermal efficiency
>95%trigger fidelity
97%detection probability
Nanite EMP Project — Codename: Onryō (怨霊)

Photo-Switchable
EMP Swarms.

A novel architecture for agile, self-healing electromagnetic pulse beam-steering in electronic warfare applications. Integrating chemical-vibrational AND-gate logic with reconfigurable waveguide topology for next-generation non-nuclear EMP systems.

01

Project Onryō (怨霊)

Nanite EMP Swarm Architecture

Photo-switchable topological nanotube EMP nanite swarms integrating chemical-vibrational AND-gate logic with reconfigurable waveguide topology. Each nanite (50-100nm diameter) comprises an oxygen-powered nanobattery, 10-stage Marx-generator (0.1fF, 1kV), DNA-aptamer chemical sensor, and azobenzene-functionalized graphene topological waveguide.

Nanite Diameter50-100nm
EMP Rise-Time0.6±0.1ns
Peak Field48±8 kV/m @ 1m
Swarm Mass0.5g
>0.9kill probability at 500m
02

Chemical-Vibrational AND-Gate

Dual-Stimuli Logic System

Biomimetic triggering inspired by insect swarm communication. DNA-aptamer sensors detect bombykol analogues at 8±2 ppb threshold while ZnO piezoelectric transducers respond to 0.4g vibrational cues. CMOS-like NAND-NAND implementation achieves 96% true-positive rate with <2% false-positive rate.

Chemical Threshold8±2 ppb
Vibration Threshold0.4g
96%true-positive fidelity
03

Topological Beam-Steering

Photo-Switchable Waveguide

Azobenzene-functionalized graphene segments enable sub-nanosecond switching between trivial and topological propagation states. Beam steering of ±12° azimuth and ±8° elevation with >15dB side-lobe suppression, achieved without mechanical components. Energy consumption below 10⁻¹⁸J per switching event.

Elevation Steering±8°
Side-Lobe Suppression>15dB
±12°azimuth beam steering
04

Self-Healing Swarm Protocol

Autonomous Recovery System

Distributed self-healing through neighbor-initiated optical repair. Piezoelectric monitoring detects waveguide damage via mechanical resonance changes. Automatic repair pulse triggering restores transmission coefficient to within 1dB of nominal. Mission-ready for fighter-jet defense, counter-UAV, and missile defense scenarios.

Transmission Recovery1dB nominal
Per-Nanite Cost<$0.02
8msself-healing recovery
Our Know-How

Research.Develop.Deploy.

Advanced CBR Protection Technology

MOF-Based
CBR Filtration.

Enhanced Tactical Chemical, Biological, and Radiological Filtration System utilizing Metal-Organic Framework technology. 10x improvement over legacy ASZM-TEDA activated carbon with self-decontaminating capability.

MOF Nanopore Architecture

Zirconium-based Metal-Organic Framework with precisely controlled 0.8-1.2nm pore dimensions for molecular selectivity against CWAs.

0.8-1.2nmPore Size

Catalytic Decomposition

TiO₂ nanoparticles generate hydroxyl radicals for chemical agent neutralization. Complete decomposition within 12 hours under ambient conditions.

12hrsSelf-Decon Time

Antimicrobial Action

Strategic silver nanoparticle positioning delivers continuous antimicrobial action with >6 log reduction against biological threats without leaching.

>6logBio Reduction

Extended Protection

72 hours continuous CBR protection versus 8-12 hours for conventional ASZM-TEDA filters. Reduced logistical burden for extended operations.

72hrsContinuous Protection

Multi-Threat Protection Matrix

Chemical
  • Nerve Agents (G/V-series)
  • Blister Agents (HD, L)
  • Blood Agents (AC, CK)
  • Choking Agents (CG, DP)
Mechanism:

Selective capture + catalytic decomposition via Zr-MOF nodes and TiO₂ photocatalysis

Biological
  • Bacterial Pathogens
  • Viral Particles
  • Biological Toxins
  • Spore-forming Agents
Mechanism:

Size-exclusion filtration + Ag nanoparticle antimicrobial action preventing biofilm formation

Radiological
  • Alpha Particles
  • Beta Particles
  • Radiological Dust
  • Contaminated Aerosols
Mechanism:

High-surface-area capture with 3D pore network providing multiple interception pathways

Performance Validation Metrics

>480minBreakthrough Time10x
95%eff.Humidity Resilience3x
-40 to +50°COperating RangeMIL-STD
>10yearsShelf Life2x
85%wtMOF LoadingHigh
YesNIOSH CompliantCert

Hierarchical Three-Layer Fiber Architecture

1Layer 1

Pre-Filter Mesh

Coarse particle interception and structural support

Material:Electrospun polymer
2Layer 2

MOF-Composite Core

Primary CBR capture and catalytic neutralization

Material:Zr-MOF/TiO₂/Ag composite
3Layer 3

Fine Filtration

Biological pathogen capture and final polishing

Material:HEPA-grade nanofiber
NIOSH CBRN CertifiedM50/FM53 CompatibleSelf-Decontaminating
Nanogeios Laboratories Defense Research Division
Global Operations
Global network sphere

Worldwide
presence.

From fundamental quantum research to validated military textiles, Nanogeios bridges the gap between the lab bench and the battlespace.

4facilities

Strategic research facilities positioned across three continents for global defense collaboration.

MIL-STDCertified Standards
24/7Research Operations
headquarters
Miami, FL1 nodes
operational
Incheon, KR1 nodes
operational
Brussels, BE1 nodes
operational
Osaka, JP1 nodes
LIVE

QV-TFT
live lab metrics.

QCVT Bandwidth
1-100 GHz
PVAT Frequency
0.1-10 MHz
Q-Factor
>10⁶
NEP
10⁻²¹ W/√Hz
Operating Temp
50 mK
Squeezing Level
~10 dB
>0%
Detection probability
stealth targets within 100m @ 10dB squeezing
superconducting nanowire single-photon detector
SNSPD quantum efficiency
0%
Bell state distribution @ >1kHz rate
Entanglement fidelity
>0%
QCVT EM DetectionPVAT Phononic ArrayTransmon CorrelatorQNN Fusion ProcessorCross-domain vacuum fluctuation sensing
Publications

Research
papers.

Our peer-reviewed research advances defense technology from theoretical frameworks to field-validated systems.

Quantum2025

QV-TFT Quantum Sensing Framework

Vassilias, Mancer, Serroune et al.

Quantum Vacuum Twin-Field Tomography: A Unified Architecture for Cross-Domain Quantum Sensor Networks

35 pages
Download PDF
EMP2025

Project Onryō Nanite EMP

Nanogeios Laboratory Defense

Photo-Switchable Topological Nanotube EMP Nanite Swarms with Chemical-Vibrational AND-Gate Logic

48 pages
Download PDF
CBR2025

CBR MOF Filtration System

Nanogeios Laboratory Defense

Enhanced Tactical Chemical, Biological, and Radiological Filtration System for Military Applications

32 pages
Download PDF
Nano2025

Advanced MOF Nanopore Architecture

Nanogeios Laboratory Defense

Metal-Organic Framework Integration for Multi-Threat Protection in Tactical Environments

28 pages
Download PDF
4Research Papers
2025Publication Year
143+Total Pages
PeerReviewed
Request Full Access
Security

Secure by
design.

Defense-grade security protocols ensure technology integrity from research lab to battlefield deployment.

Classification Level
0Security breaches since founding
MIL-STD-810GITARNATO STANAGEAR

MIL-STD Certified

All technologies validated to military standards.

Classified Research

Secure facilities with controlled access protocols.

Full Audit Trails

Complete documentation and traceability.

Export Compliance

ITAR and EAR compliant technology transfer.

Technical Specifications

Beyond theoretical.
Field validated.

From fundamental quantum research to validated military textiles, Nanogeios bridges the gap between the lab bench and the battlespace.

Sub-nanosecond timing

Precision EMP pulse delivery for maximum effectiveness.

Millikelvin operations

Quantum sensing at 10-50 mK for peak performance.

Cross-domain fusion

EM and phononic signature integration.

Self-healing topology

10ms recovery for continuous operation.

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Lab Tests & Results

Validated by science.

PCM Thermal Textiles have completed 500+ thermal cycling tests with only 3.9% degradation. Field trials in arctic (-40C) and desert (+55C) conditions confirmed >89% thermal efficiency and 2.3kg weight reduction per soldier.
MIL-STD-810G validatedZero external power requiredCognitive performance maintained
SA

Shad AM Serroune

Head of Laboratory

Key Metric500+Thermal cycles completed
Research Divisions
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Nanogeios Laboratory Defense

Ready for strategic
overmatch?

From quantum vacuum sensing to self-healing nanite swarms, we engineer the invisible advantages that define tomorrow's battlespace.

Nanite EMP Swarms>0.9 Pk
Quantum Sensing97% Detection
CBR Filtration480+ min
Sub-Micron Fab<100nm
Systems Operational
|Miami, FL HQ
4Core TechnologiesTRL 4-6 Validated