Prebridge Technique to Incorporate Transition Metal to Metal-Organic Frameworks for the Purposes of Catalysis and Hydrogen Storage via Spillover Effect

| 0 Comments | 0 TrackBacks

Cheng-Yu Wang presents at AIChE annual meetingPrebridge Technique to Incorporate Transition 

Co-Authors:  Qihan Gong, Jing Li, Angela Lueking


Abstract:  Metal-organic frameworks, high surface area materials with the characteristics of adjustable structure and surface chemistry, are becoming promising candidates for hydrogen storage, gas separation, and catalyst supports.  In this paper, we explore MOF stability after various catalytic doping methods for IRMOF-8, Cu-BTC, and Cu-TDPAT.  After identifying a catalytic doping technique that maximizes stability and retains the surface area of the MOF precursor, we measure hydrogen isotherms at 300K up to 80 bar, and demonstrate catalyst addition significantly increases hydrogen storage via the hydrogen spillover effect.  Adsorption enhancement is most pronounced at low pressure, and kinetic limitations and MOF instability effects inhibit high-pressure adsorption via the spillover effect.  Novel hydrogen chemisorption sites are identified using spectroscopic techniques, for both undoped and doped MOFs.  An improved mechanistic understanding of the hydrogen spillover effect is developed by tracking of hydrogenation of N groups via spectroscopy, density functional theory, and comparison of defected versus pristine MOF structures.  Implications for hydrogen storage and use of MOFs as a catalyst support are discussed.


No TrackBacks

TrackBack URL:

Leave a comment

Subscribe to receive notifications of follow up comments via email.
We are processing your request. If you don't see any confirmation within 30 seconds, please reload your page.

Search This Blog

Full Text  Tag

Recent Entries

Sarmishtha Sircar successfully defends her PhD thesis!
Sarmistha Sircar successfully defended her PhD thesis on December 19, 2013. Congratulations Sarmishtha, and happy editing. :)…
The University of Nebraska-Lincoln Chemical and Biomolecular Engineering Advisory Board
Angela will join the University of Nebraska-Lincoln Chemical and Biomolecular Engineering Advisory Board starting next year! I hope the meeting…
Investigations into Compressive Gas Storage in Carbon Cages
BES One Slide Presentation.pdf…