Fluorinated metal-organic frameworks (FMOFs), as described in US8343260B2, offer an exciting development in gas storage technology. What stands out to us is how these FMOFs are designed with internal hollow channels and cavities, allowing them to efficiently adsorb and desorb gases.
By replacing hydrogen atoms with fluorine atoms or fluorinated groups in the organic ligands, the density of the framework is significantly increased, enhancing its volumetric capacity for gas storage. This makes FMOFs a highly effective option for industries where maximizing storage space and efficiency is essential.
As we explore this innovation further, using our tool Global Patent Search Tool which can provide deeper insights into the patent and related technologies. It’s a valuable resource for staying ahead in the evolving world of gas storage solutions.
Let’s take a closer look at the results in this article.
If you’re interested in uncovering more cutting-edge inventions then visit our latest post!
How We Performed the Prior Art Search for US8343260B2
To identify the most relevant prior art for US8343260B2, we utilized the Global Patent Search Tool, a powerful resource for efficiently finding related patents and documents. Here’s how we conducted our search:
1. Starting with the Patent Number
We began the process by entering US8343260B2 into the search bar. This allowed the tool to focus on this specific patent related to fluorinated metal-organic frameworks (FMOFs).
2. Refining the Search by Priority Date
To ensure accuracy, we tailored the search to include documents filed before the priority date—Sep 14, 2007. This helped us pinpoint prior art that could potentially influence the claims made in US8343260B2.
3. Executing the Search
After setting the parameters, we initiated the search. The Global Patent Search Tool quickly compiled a comprehensive list of patents and documents that could be relevant as prior art.
4. Evaluating the Results
The tool generated a ranked list of related patents, prioritizing them based on relevance to the technology, filing dates, and content similarities. This ensured we had a clear view of the most pertinent prior art for US8343260B2.
Top 10 Prior Art Search Results for US8343260B2
Below are the top 10 prior art results that our Global Patent Search Tool found for US8343260B2.
1. US20100282080A1 – Fluorinated Metal-organic Frameworks for Gas Storage
Filed: September 12, 2008
Published: November 11, 2010
Summary: Describes fluorinated metal-organic frameworks (FMOFs) with internal hollow channels and cavities, capable of adsorbing and desorbing gases. Hydrogen atoms are substituted with fluorine or fluorinated groups to enhance volumetric gas storage capacity, aligning closely with the claims of US8343260B2 in gas storage using fluorinated frameworks.
2. US8715395B2 – Fluorinated Metal-organic Frameworks for Hydrocarbon Storage
Filed: October 7, 2011
Published: May 6, 2014
Summary: Focuses on FMOFs for hydrocarbon storage, specifically C6-C8 hydrocarbons, showing excellent water resistance and recyclability. The FMOFs described exhibit properties similar to those in US8343260B2, particularly in their ability to store hydrocarbons using fluorinated structures.
3. CN101641152A – Crystalline 3D- and 2D-Covalent Organic Frameworks
Filed: January 24, 2008
Published: February 3, 2010
Summary: Describes crystalline organic frameworks useful for storing and separating gas molecules, paralleling US8343260B2 in its use of framework materials for efficient gas storage and separation.
4. US20100181212A1 – Monolithic Materials for Gas Storage
Filed: July 11, 2007
Published: July 22, 2010
Summary: This patent involves supported metal-organic framework materials combined with open-pore polymer foams for gas storage, aligning with US8343260B2 in its focus on enhancing gas storage capabilities through innovative frameworks.
5. KR20080021037A – Method for Producing Porous Metal-organic Framework Materials
Filed: May 22, 2006
Published: March 6, 2008
Summary: Describes the production of porous metal-organic frameworks involving co-ordinated metal ions and organic compounds for gas storage and separation, directly relating to the material structure in US8343260B2.
6. WO2004042270A3 – Gas Storage Materials and Devices
Filed: June 19, 2003
Published: August 12, 2004
Summary: Focuses on porous metal-organic frameworks for hydrogen storage, featuring organic nodes with large cavities for gas molecules. Similar to US8343260B2, this patent emphasizes high-efficiency gas storage using framework structures.
7. US8313559B2 – Aluminum Aminocarboxylates as Porous Metal Organic Frameworks
Filed: May 20, 2008
Published: November 20, 2012
Summary: Describes a metal-organic framework composed of aluminum ions and organic compounds used for storing gases, reflecting similar structural innovations as found in US8343260B2.
8. WO2007128994A1 – MOF-Compounds as Gas Adsorbers
Filed: April 10, 2007
Published: November 15, 2007
Summary: Discusses metal-organic framework compounds for capturing gases like oxides, highlighting porous structures similar to those in US8343260B2 for gas storage applications.
9. US8734652B2 – Metal Organic Frameworks Based on Aluminum Fumarate
Filed: February 5, 2013
Published: May 27, 2014
Summary: This patent involves metal-organic frameworks formed from aluminum fumarate ions for gas storage, showing parallels with the fluorinated frameworks in US8343260B2 regarding efficient gas storage capabilities.
10. US8093350B2 – Coordination Polymer Crystal with Porous Metal-organic Frameworks
Filed: November 30, 2007
Published: January 10, 2012
Summary: Describes a coordination polymer crystal with porous metal-organic frameworks that enhance gas storage through chemical bonding, aligning with US8343260B2’s claims of using frameworks for high-density gas storage.
Final Thoughts
We recognized a need in the market—a tool that goes beyond simple patent searches to connect past innovations with today’s evolving needs. That’s why we created the Global Patent Search Tool.
This tool is designed not only for quick searches but for deeper exploration into how historical patents influence emerging technologies. It’s an invaluable resource for anyone looking to stay ahead of trends and inspire the next wave of innovations.
Whether you’re an inventor, researcher, or industry leader, the Global Patent Search Tool offers an accessible and intuitive way to uncover patent insights and shape your future strategies. Let it guide your next big breakthrough.
Disclaimer
This article is for informational purposes only and does not provide legal advice. The results from the Global Patent Search Tool should be used for research, not as legal guidance. For any legal matters, consult a qualified attorney.
