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Title: Robust carbon monolith having hierarchical porosity

Patent ·
OSTI ID:1083231
; ;

A carbon monolith includes a robust carbon monolith characterized by a skeleton size of at least 100 nm, and a hierarchical pore structure having macropores and mesopores.

Research Organization:
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC05-00OR22725
Assignee:
UT-Battelle, LLC (Oak Ridge, TN); University of Tennessee Research Foundation (Knoxville, TN)
Patent Number(s):
8,366,979
Application Number:
13/011,554
OSTI ID:
1083231
Country of Publication:
United States
Language:
English

References (18)

Porous carbonaceous material patent December 1990
Carbonaceous ferromagnetics and method for the preparation thereof patent September 1996
Method for the preparation of high surface area high permeability carbons patent May 1999
Method of making mesoporous carbon using pore formers patent February 2000
Method for preparing nanoporous carbon materials and electric double-layer capacitors using them patent February 2003
Carbon molecular sieve material with structural regularity, method for preparing the same and use thereof patent July 2003
Carbon molecular sieve and method for manufacturing the same patent November 2004
Robust carbon monolith having hierarchical porosity patent November 2008
Porous carbon electrode with conductive polymer coating patent April 2012
A Graphitized-Carbon Monolithic Column journal September 2003
Octadecylsilylated Porous Silica Rods as Separation Media for Reversed-Phase Liquid Chromatography journal January 1996
Study of the Preparation Conditions of Silica Monoliths for HPLC journal October 2003
Monolithic columns for liquid chromatography journal April 2003
Separation of polar compounds using carbon columns journal March 2003
Synthesis of a carbon monolith with trimodal pores journal January 2003
Carbon Monoliths Possessing a Hierarchical, Fully Interconnected Porosity journal July 2003
Hierachical Porous Carbon Structures from Cellulose Acetate Fibers journal July 2002
A computational study of the porosity effects in silica monolithic columns journal July 2004

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