Press & Media Hub
🍁 Aperiodic Materials Discovery Platform - Petawawa, Ontario
Complete media resources covering Kyle Clouthier's computational discovery platform for aperiodic materials. ReOsSSe₂ (first Re-Os heterometallic 2D material, 688.5 meV Rashba splitting - highest reported for 2D materials) available as FREE dataset under MIT License. FeTeSe (patent-pending aperiodic topological superconductor) available for $35K evaluation licenses. Targeting Nature Communications publication Q1 2026.
Media Kit & Press Resources
Canadian breakthrough in aperiodic materials: Independent computational researcher Kyle Clouthier discovers ReOsSSe₂ (first Re-Os heterometallic 2D material, 688.5 meV Rashba splitting - highest reported for 2D materials) and FeTeSe (patent-pending aperiodic topological superconductor). ReOsSSe₂ FREE dataset (MIT License) for research partnerships. FeTeSe evaluation licenses $35K (5 slots, price escalates).
Contact for Press InquiriesReOsSSe₂ Technical Data
Complete DFT+SOC calculations, band structure, Fermi surface, Wannier analysis, thermodynamic stability (.CIF)
Biography & Platform
Kyle Clouthier background, independent computational materials researcher, aperiodic materials discovery platform
High-Res Visualizations
Crystal structure visualizations, band diagrams, Fermi surface maps, Dirac cone imagery
Licensing Info
FeTeSe evaluation licenses ($35K), ReOsSSe₂ FREE dataset (MIT License), synthesis partnerships
Key Facts
Essential statistics and metrics for media coverage
ReOsSSe₂ Rashba Splitting
Highest reported for 2D materials - FREE dataset (MIT License)
FeTeSe Status
Aperiodic topological superconductor - $35K evaluation licenses
Prior Literature
ReOsSSe₂ first Re-Os heterometallic 2D material - novel composition
Evaluation Licensing
FeTeSe 5 slots (price escalates) - complete DFT+SOC dataset included
Discovery Platform
Independent computational materials researcher - FIQS methodology
Market Opportunity
Topological superconductors, spintronics, quantum computing applications
Press Releases
Latest announcements and quantum breakthrough discoveries
🍁 ReOsSSe₂: First Re-Os Heterometallic 2D Material with Highest Rashba Splitting for 2D Materials
Kyle Clouthier computationally discovers ReOsSSe₂ - first Re-Os heterometallic 2D material with 688.5 meV Rashba splitting (highest reported for 2D materials) and 73 Dirac points. Zero prior literature. Complete DFT+SOC dataset freely available under MIT License. Platform demonstration of proprietary FIQS methodology.
Read More →FeTeSe: Patent-Pending Aperiodic Topological Superconductor - Evaluation Licenses Available
First computationally-designed aperiodic topological superconductor validated through DFT relaxation. Patent filing November 2025. Evaluation licenses $35K (5 slots, price escalates) include complete DFT+SOC dataset, synthesis protocols, 6-month exclusivity, co-authorship, first right of refusal for commercial licensing ($5M-$25M range).
Read More →Independent Computational Materials Researcher from Petawawa, Ontario Develops Aperiodic Materials Discovery Platform
Kyle Clouthier develops systematic aperiodic materials discovery platform accessing infinite design space beyond 230 periodic space groups. Proprietary FIQS methodology validated through DFT+SOC. Platform demonstrated with ReOsSSe₂ (FREE) and FeTeSe (patent-pending). Additional discoveries in progress, compositions confidential.
Read More →Aperiodic Materials Licensing: FeTeSe Topological Superconductor and ReOsSSe₂ Platform Demonstration
Systematic aperiodic materials discovery platform proven through DFT+SOC validation. FeTeSe evaluation licenses $35K (topological quantum computing, Josephson junctions). ReOsSSe₂ FREE dataset (MIT License) for university synthesis partnerships. Trade secret FIQS methodology protected. Canadian IP with worldwide licensing opportunities.
Read More →ReOsSSe₂ Exceptional Properties Enable Room-Temperature Spintronics and Topological Computing
688.5 meV Rashba splitting (highest for 2D materials) enables practical spintronic devices without cryogenic cooling. 73 Dirac points (36× graphene) provide rich topological physics. Type-II Dirac semimetal with exceptional stability (ΔE = -3.58 eV). CVD synthesis guidance included. FREE dataset under MIT License for research and education.
Read More →University Synthesis Partnerships Sought for Experimental Validation of ReOsSSe₂
Independent computational materials researcher seeking CVD/MBE synthesis partnerships for experimental validation of ReOsSSe₂. FREE complete computational dataset under MIT License. Co-authorship on validation publications. Kyle retains IP rights. Joint follow-up studies on synthesized materials. Platform methodology protected as trade secret.
Read More →Anticipated Media Coverage
Planned publications and media engagement post-peer review
ReOsSSe₂: First Re-Os Heterometallic 2D Material with Highest Rashba Splitting for 2D Materials
Petawawa Researcher Develops Aperiodic Materials Discovery Platform, Offers FREE Dataset to Universities
Aperiodic Topological Superconductor FeTeSe: Evaluation Licenses Available
Local Independent Researcher's Platform Could Accelerate Quantum Computing Materials Discovery
Media Inquiries
For interviews, speaking engagements, technical questions about aperiodic materials, licensing opportunities (FeTeSe $35K evaluation, ReOsSSe₂ FREE dataset), or additional press materials, contact Kyle directly. ReOsSSe₂ complete DFT+SOC dataset under MIT License. FeTeSe details available under NDA. Responding from Petawawa, Ontario.