PIONEERS IN
NANOPARTICLE
TECHNOLOGY
Enhance Aerospace & Defense Telecommunications with our advanced nanoparticle materials
Our materials offer superior conductivity, thermal stability, mechanical strength, and electromagnetic performance— critical for maintaining technological superiority and operational readiness.
We are committed to providing precise, validated nanoparticle materials for advanced solutions in Aerospace & Defense Telecommunication applications.
What are HEAANs?
High-Energy Alloy Allotrope Nanoparticles – these unique sub-40nm nanosphere metamaterials are created through proprietary, patented high-energy laser processes. HEAAN nanospheres feature an ultrastable shell structure that prevents ion emission, ensuring superior stability and dispersion without agglomeration.
Our HEAANs and quantum carbonite crystals are rigorously validated at the University of Utah’s Science Technology and Research Initiative (USTAR) shared facilities in Salt Lake City for precision and quality.
High-Energy Alloy Allotrope Nanoparticles (HEAAN)
What nanoparticle metamaterials are available for production?
We have meticulously validated 14 HEAANs, quantum carbonite crystals, and HEAAN-infused graphene to ensure optimal quality and performance. Our rapid prototyping R&D process allows us to develop new HEAANs and HEAAN-infused materials tailored to client specifications. Our production process is scalable, sustainable, affordable, and industrially reproducible.
Unique precise, near-planar geometry combined with optimized surface chemistry enhances key performance properties.
Results indicate HEAANs are highly advantageous over traditional alloys for resonance, conductivity, magnetism, thermal stability, and mechanical strength when integrated into advanced applications. These particles set a new industry standard for precision and quality.
Our nanospheres allow for free movement of particles and clean, amplified wave resonance.
Irregularly-shaped industry nanoparticles hinder movement and reflect uneven waves, leading to noisy, inefficient resonance.
The Size of a HEAAN Particle
Scanning Transmission Electron Microscope (STEM) image of two-element nanospheres in clear liquid. Each nanosphere comprises two perfectly spherical elements, creating a single nanosphere of less than 100 nm.
If Not Us, Then Who? If Not Now, Then When?
Through our proprietary single-step laser production method, CAK Holdings has developed the unique capability to produce reliable, affordable, and scalable multi-element alloy allotropes that are non-reverse engineerable.
This process is cleaner and simpler, avoids toxic chemicals, generates minimal waste, and produces stable, eco-friendly, non-toxic nanoparticles without refrigeration or complex stabilizers.
HEAAN materials are poised to revolutionize the fields of chemistry, material science, and physics, providing unprecedent capabilities in sensor technologies and communications.
The Next Generation of C4ISR
Our nanoparticle metamaterial products enhance C4ISR capabilities by incorporating nanospheres and quantum carbon crystals into communication systems, sensors, and computing platforms.
By boosting signal processing and data transmission efficiency, Swath Micro Antennas integrated with nanoparticle metamaterials improve Synthetic Aperture Radar (SAR) performance, extending bandwidth and signal propagation.
Quantum carbon crystals, known for resilience and thermal conductivity, enhance the durability of electronic components in harsh environments. This synergy improves situational awareness, decision-making speed, and communication infrastructure, essential for modern defense operations.
Why CAK Holdings Group?
— Leading in nanoparticle innovation and development of advanced applications
— Setting a new standard for the nanoparticle industry in precision, quality, and meticulous validation
— Committed to providing advanced nanoparticle materials that significantly contribute to defense telecommuncations and other applications.
— Endorsed by the Utah Governor’s Office of Economic Opportunity
Our Objective
CAK Holdings Group LLC aims to extend its market reach, establish strategic partnerships, and drive innovation globally, particularly within the military and defense sectors. Our goal is to ensure our cutting-edge materials contribute to the global defense infrastructure of the United States and its allies.
This work is supported, in part, by the Materials Research and Science and Engineering Center (MRSEC) Program of the National Science Foundation (NSF) under Award No. Division of Materials Research (DMR)-1121252. https://www.nanofab.utah.edu