Metal‐organic frameworks for carbon dioxide capture and methane storage
Y Lin, C Kong, Q Zhang, L Chen - Advanced Energy Materials, 2017 - Wiley Online Library
In the global transition to a sustainable low‐carbon economy, CO2 capture and storage
technology still plays a critical role for deep emission reduction, particularly for the stationary …
technology still plays a critical role for deep emission reduction, particularly for the stationary …
[HTML][HTML] A review of technical advances, barriers, and solutions in the power to hydrogen (P2H) roadmap
Power to hydrogen (P2H) provides a promising solution to the geographic mismatch
between sources of renewable energy and the market, due to its technological maturity …
between sources of renewable energy and the market, due to its technological maturity …
Evaluating metal–organic frameworks for natural gas storage
Metal–organic frameworks have received significant attention as a new class of adsorbents
for natural gas storage; however, inconsistencies in reporting high-pressure adsorption data …
for natural gas storage; however, inconsistencies in reporting high-pressure adsorption data …
Development of computational methodologies for metal–organic frameworks and their application in gas separations
Under the impetus of some breakthrough studies, 1− 6 associated research on metal−
organic frameworks (MOFs) has rapidly developed into one of the highly unique areas in …
organic frameworks (MOFs) has rapidly developed into one of the highly unique areas in …
Facile synthesis of CuBTC and its graphene oxide composites as efficient adsorbents for CO2 capture
Easily regenerable adsorbents are highly desirable for CO 2 capture. In this regard, a
modified synthesis method for preparing CuBTC and its graphene oxide (CuBTC@ GO) …
modified synthesis method for preparing CuBTC and its graphene oxide (CuBTC@ GO) …
High pressure adsorption of hydrogen, nitrogen, carbon dioxide and methane on the metal–organic framework HKUST-1
J Möllmer, A Möller, F Dreisbach, R Gläser… - Microporous and …, 2011 - Elsevier
High pressure adsorption phenomena are discussed for different gases on HKUST-1 (Cu3
(BTC) 2, commercially available product BasoliteTM C300). Sorption isotherms for …
(BTC) 2, commercially available product BasoliteTM C300). Sorption isotherms for …
CO2 and CH4 Separation by Adsorption Using Cu-BTC Metal−Organic Framework
L Hamon, E Jolimaître… - Industrial & Engineering …, 2010 - ACS Publications
Molecular simulations have shown that the metal− organic framework Cu-BTC (Cu3 (BTC)
2) is an interesting candidate for the separation of CO2 by adsorption. In this work, the first …
2) is an interesting candidate for the separation of CO2 by adsorption. In this work, the first …
Adsorption of CO, CO2 and CH4 on Cu-BTC and MIL-101 metal organic frameworks: Effect of open metal sites and adsorbate polarity
P Chowdhury, S Mekala, F Dreisbach… - … and Mesoporous Materials, 2012 - Elsevier
A comparative adsorption study of three gases viz. CO, CO2 and CH4 on two adsorbents viz.
Cu-BTC (or HKUST-1) and Cr-BDC (or MIL-101) is reported in this article. The gravimetric …
Cu-BTC (or HKUST-1) and Cr-BDC (or MIL-101) is reported in this article. The gravimetric …
Transferable force field for carbon dioxide adsorption in zeolites
We have developed a complete force field that accurately reproduces the adsorption
properties of carbon dioxide in a variety of zeolites with different topologies and …
properties of carbon dioxide in a variety of zeolites with different topologies and …
Heats of adsorption for seven gases in three metal− organic frameworks: systematic comparison of experiment and simulation
D Farrusseng, C Daniel, C Gaudillere, U Ravon… - Langmuir, 2009 - ACS Publications
The heat of adsorption is an important parameter for gas separation and storage
applications in porous materials such as metal− organic frameworks (MOFs). There are …
applications in porous materials such as metal− organic frameworks (MOFs). There are …