Leena Melag
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View article: Practical Considerations in the Design and Use of Non‐Crystalline Metal–Organic Frameworks
Practical Considerations in the Design and Use of Non‐Crystalline Metal–Organic Frameworks Open
The concept of non‐Crystalline Metal–Organic Frameworks (MOFs) is both theoretically exciting and rich in potential applications. Since their conceptual introduction, research in this field has experienced significant growth. This review p…
View article: Capture, Storage, and Release of Oxygen by Metal–Organic Frameworks (MOFs)
Capture, Storage, and Release of Oxygen by Metal–Organic Frameworks (MOFs) Open
Oxygen is a critical gas for medical and industrial settings. Much of today's global oxygen supply is via inefficient technologies such as cryogenic distillation, membranes or zeolites. Metal–organic frameworks (MOFs) promise a superior al…
View article: Capture, Storage, and Release of Oxygen by Metal–Organic Frameworks (MOFs)
Capture, Storage, and Release of Oxygen by Metal–Organic Frameworks (MOFs) Open
Oxygen is a critical gas for medical and industrial settings. Much of today's global oxygen supply is via inefficient technologies such as cryogenic distillation, membranes or zeolites. Metal–organic frameworks (MOFs) promise a superior al…
View article: Efficient Delivery of Oxygen Molecules by Magnetic Framework Composites
Efficient Delivery of Oxygen Molecules by Magnetic Framework Composites Open
Metal-organic frameworks (MOFs) offer the perfect yet largely unexplored alternative for selective adsorption of oxygen. Oxygen molecules can bind directly to the coordinatively unsaturated open metal sites of MOFs, leading to higher selec…
View article: Performance evaluation of CuBTC composites for room temperature oxygen storage
Performance evaluation of CuBTC composites for room temperature oxygen storage Open
Oxygen is commonly separated from air using cryogenic liquefaction.