NanoFEA’s Innovative Getter Technologies Featured in Three New USPTO Publications
We’re thrilled to share that the United States Patent and Trademark Office (USPTO) has officially published three groundbreaking patent applications from NanoFEA, highlighting our cutting-edge advancements in getter technology!
US Patent Application Publication 2025/0108356 A1
Published on April 3, 2025
Title: All-in-One Getters
NanoFEA’s revolutionary “All-in-One Getters” deliver a comprehensive solution for gas and particle contamination across a wide range of environments—including electronic packages, medical devices, vacuum systems, and photoelectronic/optical instruments.
This breakthrough technology tackles a broad spectrum of reliability threats by adsorbing:
- Moisture (H₂O)
- Hydrogen (H₂), Oxygen (O₂), Nitrogen (N₂)
- Sulfur Dioxide (SO₂), Carbon Monoxide (CO), Carbon Dioxide (CO₂)
- Small (<0.6 nm) hydrocarbons and volatile organic compounds (VOCs)
- Particulate contaminants including magnetic, electric, dielectric particles—and even microbial threats!
It’s a true all-in-one defense system for next-generation devices.
US Patent Application Publication 2025/0091030 A1
Published on March 20, 2025
Title: Multi-Gas Getters
This patent introduces a high-performance getter tailored for multi-gas environments. Designed to absorb both polar gases (H₂O, CO₂, SO₂, NH₃) and non-polar gases (H₂, O₂, N₂, SiH₄, CH₄), this technology is ideal for use in electronics, medical, optical, and vacuum applications.
It also efficiently traps small-sized hydrocarbons and VOCs commonly emitted from polymer or epoxy-based packaging materials. This versatile getter sets a new benchmark for environmental protection in sensitive systems.
US Patent Application Publication 2025/0073666 A1
Published on March 6, 2025
Title: Broad-Spectrum HC/VOC Getter for Emission Control in Electrics
This game-changing innovation is engineered for powerful adsorption of both polar (e.g., acetone, ethanol, methanol, formaldehyde) and non-polar VOCs (e.g., benzene, toluene, xylene, hexane, ethane).
It captures hydrocarbons of all sizes—from sub-nanometer (<0.6 nm) to larger VOCs—offering a robust solution for managing emissions in electronics using epoxy and polymer-based materials.
These patent publications underscore NanoFEA’s commitment to advancing reliability, safety, and performance in today’s most demanding technological environments. Stay tuned—more innovation is on the way!