Design and Synthesis of Metal-Adeninate Porous Materials for CO 2 Capture
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Design and Synthesis of Metal-Adeninate Porous Materials for CO 2 Capture P.I. Nathaniel L. Rosi, University of Pittsburgh 1) bio-MOFs with tunable pores for optimizing CO 2 capacity 2) Mesoporous bio-MOFs with unprecedented pore volumes BET SA: 4200 m 2 /g Pore Volume: 4.2 cm 3 /g
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Design and Synthesis of Metal-Adeninate Porous Materials for CO 2 Capture P.I. Nathaniel L. Rosi, University of Pittsburgh. 1) bio-MOFs with tunable pores for optimizing CO 2 capacity. 2) Mesoporous bio-MOFs with unprecedented pore volumes. BET SA: 4200 m 2 /g Pore Volume: 4.2 cm 3 /g. - PowerPoint PPT Presentation
Transcript of Design and Synthesis of Metal-Adeninate Porous Materials for CO 2 Capture
Design and Synthesis of Metal-Adeninate Porous Materials for CO2 CaptureP.I. Nathaniel L. Rosi, University of Pittsburgh
1) bio-MOFs with tunable pores for optimizing CO2 capacity
2) Mesoporous bio-MOFs with unprecedented pore volumes
BET SA: 4200 m2/gPore Volume: 4.2 cm3/g