Recycling Anesthetics: Applications for Porous Molecular Crystals
Startup Company, Resthetics, Addresses Anesthesia Waste
For Mohamed Hashim, a Ph.D. student in chemistry at the University of Houston, his research can be thought of as ‘molecular architecture,’ in which he synthesizes molecules which assemble into an orderly crystalline framework.
Along the way, results from this research have been leveraged into a startup company, Resthetics, which seeks to recycle hospital anesthetics.
“These molecules are my version of a skyscraper,” Hashim said.
Porous Molecular Crystals: Used for Filtration, Storage and More
Hashim’s research involves synthesizing porous molecular crystals, which form a lattice-work structure surrounding empty pores, which can trap different molecules. This research is conducted under the guidance of associate professor of chemistry Ognjen Miljanić in the College of Natural Sciences and Mathematics.
“If these materials are designed with great care, we can control the size and shape of the pores as well as the environment within the pores,” Hashim said.
Applications for these materials include filtration, storage and drug delivery.
Systematic Synthesis of Porous Molecular Crystals
These porous molecular crystals were originally synthesized by accident, by one of Hashim’s previous lab-mates, Teng-Hao Chen, who is now an assistant professor at Tamkang University in Taiwan. Chen had attempted to synthesize a metal organic framework molecule, in which a scaffold-like structure of atoms is held together by a central metal ion.
However, the end product was a crystal in which the metal ion had disappeared, leaving only empty pores behind.
“It was believed that these bonds were very weak, and it’s not supposed to hold the material together, that it would just fall back on itself,” Hashim said. “So that’s why we decided to work on it.”
So Hashim set out to see if these porous molecular crystals could be systematically synthesized, or if this was a one-time accident.
“The answer turned out to be a lot harder than I’d expected,” Hashim said. “Three years later, I’d made one.”
However, Hashim was able to work out the mechanism by which these crystals form, and since then, has gone on to make more. As it turned out, these crystals assemble as a result of attractive forces between individual molecules, which interlock to hold everything together.
Resthetics: A Startup Company for Recycling Anesthesia
In an effort to find an application, Hashim is involved with a startup, called Resthetics, which would use this material to recycle anesthesia.
“These pores act like a net, capturing different molecules,” Hashim said. “We’ve found that these pores are selective for fluorinated molecules, such as anesthetics.”
As part of this startup, which is in collaboration with the Wolf Center for Entrepreneurship, Hashim has spoken with investors, attended pitch competitions, and taken part in an accelerator program at the Texas Medical Center.
$1.5 Billion of Anesthetics Wasted Every Year
Resthetics seeks to solve a major problem with anesthetics – the high amount of waste. An estimated $1.5 billion in anesthetics is wasted each year.
“Your body only utilizes 5% of the fluorinated anesthetics,” Hashim said. “The other 95% gets exhaled, with hospitals releasing it into the atmosphere.”
In addition to being wasteful, these anesthetics are also damaging to the atmosphere.
“The idea is that if we can recapture these anesthetics, we can reuse them, minimizing cost, and the impact on the environment,” Hashim said.
- Rachel Fairbank, College of Natural Sciences and Mathematics
March 2, 2018