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Protecting the intellectual property for NovaCentrix worldwide.

Investigate one of the fastest-growing and most valuable patent portoflios in the industry.

Protecting NovaCentrix Core Businesses

Explore our library of domestic and international patents.

NovaCentrix owns or has licensed a broad body of patents covering photonic curing, conductive inks, and nanoparticle manufacturing.

United States Patents

  1.  10,986,698 – Apparatus for providing transient thermal profile processing on a moving substrate
  2.  10,667,405 – Method for depositing a functional material on a substrate
  3.  10,553,450 – Method for providing lateral thermal processing of thin films on low-temperature substrates
  4.  10,537,029 – Method for reducing thin films on low temperature substrates
  5.  10,422,578 – Apparatus for curing thin films on a moving substrate
  6.  10,244,636 – Method and apparatus for curing thin films on low-temperature substrates at high speeds
  7.  10,150,230 – Method for drying thin films in an efficient manner
  8.  10,030,158 – Ink
  9.  10,011,104 – Method for performing delamination of a polymer film
  10.  9,999,137 – Method for Forming Vias on Printed Circuit Boards
  11.  9,907,183 – Electrical, plating and catalytic uses of metal nanomaterial compositions
  12.  9,839,139 – Method for Reducing Thin Films on Low Temperature Substrates
  13.  9,743,516 – Method for Forming Thin Film Conductors on a Substrate
  14.  9,643,208 – Method and apparatus for curing thin films on low-temperature substrates at high speeds
  15.  9,631,283 – Substrate for Printed Electronics and Photonic Curing Process
  16.  9,617.193 – Method for Manufacturing Energetic Material Composites
  17.  9,599,397 – Light Curing Apparatus Having a Modular Lamp Housing
  18.  9,527,133 – Fine Particles
  19.  9,494,068 – Electrical Plating and Catalytic Uses of Metal Nanomaterial Compositions
  20.  9,095,871 – Method and Apparatus for Curing Thing Films on Low-Temperature Substrates at High Speeds
  21.  9,006,047 – Method for Providing Lateral Thermal Processing of Thin Films on Low-Temperature Substrates
  22.  8,945,686 – Method for Reducing Thin Films on Low Temperature Substrates
  23.  8,916,796 – Method for Depositing and Curing Nanoparticle Based Ink
  24.  8,907,258 – Apparatus for Providing Transient Thermal Profile Processing on a Moving Substrate
  25.  8,674,618 – Method and apparatus for curing thin films on low-temperature substrates at high speeds
  26.  8,673,049 – Low-Temperature Sintered Silver Nanoparticle Compositions and Electronic Articles Formed Using the Same
  27.  8,557,642 – Method for Providing Lateral Thermal Processing of Thin Films on Low-Temperature Substrates
  28.  8,505,427 – Ordinance Neutralization Method and Device Using Energetic Compounds
  29.  8,410,712 – Method and Apparatus for Curing Thin Films on Low-Temperature Substrates at High Speeds
  30.  8,361,257 – Laminated Energetic Device
  31.  8,243,271 – Methods for Fabricating Analytical Substrates Using Metallic Nanoparticles
  32.  8,172,963 – Laminated Energetic Device
  33.  7,931,941 – Synthesis of Metallic Nanoparticle Dispersions Capable of Sintering at Low Temperatures
  34.  7,820,097 – Electrical, Plating and Catalytic Uses of Metal Nanomaterial Compositions
  35.  7,763,362 – Shielding Based on Metallic Nanoparticle Compositions and Devices and Methods Thereof
  36.  7,601,015 – Self-Energizing Electrical Connection
  37.  7,543,170 – Equipment Fail Safe Safety System
  38.  7,477,500 – Method and System for Signal and Power Distribution in a Building Housing a Manufacturing Process
  39.  7,262,384 – Reaction Vessel and Method for Synthesizing Nanoparticles using Cyclonic Gas Flow
  40.  7,220,936 – Pulse Thermal Processing of Functional Materials Using Directed Plasma Arc
  41.  7,126,081 – Radial Pulsed Arc Discharge Gun for Synthesizing Nanopowders
  42.  7,012,214 – Nanopowder Synthesis using Pulsed Arc Discharge and Applied Magnetic Field
  43.  6,965,629 – Method and Apparatus for Initiating a Pulsed Arc Discharge for Nanopowder Synthesis
  44.  6,916,389 – Process for Mixing Particulates
  45.  6,777,639 – Radial Pulsed Arc Discharge Gun for Synthesizing Nanopowders 
  46.  6,653,591 – Method and apparatus for direct electrothermal-physical conversion of ceramic into nanopowder 
  47.  6,600,127 – Method and apparatus for direct electrothermal-physical conversion of ceramic into nanopowder
  48.  6,580,051 – Method and apparatus for producing bulk quantities of nano-sized materials by electrothermal gun synthesis
  49.  6,503,350 – Variable burn-rate propellant
  50.  6,472,632 – Method and apparatus for direct electrothermal-physical conversion of ceramic into nanopowder
  51.  6,454,886 – Composition and method for preparing oxidizer matrix containing dispersed metal particles
  52.  6,430,920 – Nozzleless rocket motor

Australia Patents

India Patents

Japan Patents

  1. 6,328,702 (ENG)
  2. 6,277,253 (ENG)
  3. 6,202,763 (ENG)
  4. 6,055,051 (ENG)
  5. 5,974,045 (ENG)
  6. 5,922,929 (ENG)
  7. 5,802,739 (ENG)
  8. 5,780,682 (ENG)
  9. 5,560,272 (ENG)
  10. 5,408,878 (ENG)
  11. 5,401,550 (ENG)
  12. 5,394,749 (ENG)
  13. 5,282,120 (ENG)