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Storage and delivery of medical gases using zeolites and metal-organic frameworks
Published on Jun 13, 2017879 Views
It is quite a paradox that several gases that we normally think of as extremely toxic are in fact vital in mammalian biology (in the right amounts). Nitric oxide (NO) is the most well-known of these g
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Chapter list
Storing and delivering gases using zeolites and MOFs00:00
Synthesis - Characterisation - Application01:38
Synthesis02:11
Characterisation02:47
Application03:41
Zeolites05:10
MOFs - Gas tanks and wine racks06:28
Which gases should we store (and why)?07:10
Cleaner cars and greener gases08:38
Nitric oxide - friend or foe?09:07
Nitric oxide (NO) - 109:32
Nitric oxide (NO) - 110:29
Zeolites and MOFs11:18
Crystal structure of Co-LTA NO complex12:18
Can we use zeolites to deliver NO?13:21
MOFs - "Crystaline sponges"14:23
M-CPO-27: Exceptional performance over the whole adsorption-storage-release cycle14:39
Biology: Anti-thrombosis materials17:18
Dermatology studies20:37
Anti-bacterial NO zeolites22:48
Wound healing study23:51
Tuning NO delivery from CPO-2725:04
Tuning biological response26:11
Multifunctional antibacterial properties26:59
Untitled28:38
Proven antimicrobial efficacy30:33
Multifunctional antibacterial activity31:50
Anti-biofilm studies using MOFs32:12
Multirate delivery of multiple therapeutic agents32:56
Multirate delivery of therapeutic agents33:01
Toxicity33:35
Manufacturing at large scale35:20
Formulating products36:10
Myography: Relaxation to H2S-loaded MOFs or NaHS37:02
Comparison of relaxation responses to NaHS and H2S gas37:18
MOFs37:34
Markets seeking solutions - 137:58
Increasing resistance decreasing drug development38:58
Markets seeking solutions - 239:13
Commercial products in trials39:51
Awards40:19
MOFgen40:55
Acknowledgments41:35
Thanks42:12