A future where power plants feed their carbon dioxide directly into an adjacent production facility instead of spewing it up a chimney and into the atmosphere is definitely possible, because CO2 isn't just an undesirable greenhouse gas; it is also a good source of carbon for processes like polymer production. In the journal Angewandte Chemie, American scientists have now introduced a two-step, one-pot conversion of CO2 and epoxides to polycarbonate block copolymers that contain both water-soluble and hydrophobic regions and can aggregate into nanoparticles or micelles.
CO2 and epoxides (highly reactive compounds with a three-membered ring made of two carbon atoms and one oxygen atom) can be polymerized to form polycarbonates in reactions that use special catalysts. These processes are a more environmentally friendly alternative to conventional production processes and have already been introduced by several companies. However, because current CO2-based polycarbonates are hydrophobic and have no functional groups, their applications are limited. In particular, biomedical applications, an area where the use of biocompatible polycarbonates is well established, have been left out.
A team led by Donald J. Darensbourg along with graduate student Yanyan Wang at Texas A&M University (USA) has provided a solution. For the first time, the researchers have been able to produce amphiphilic polycarbonate block copolymers in which both the hydrophilic and hydrophobic regions are based on CO2. They were also able to incorporate a variety of functional and charged groups into the polymers. Because it is very difficult to find building blocks to make hydrophilic polycarbonates, the researchers used a trick: they polymerized first and attached the water-soluble groups afterwards.
The entire process is even a "one-pot reaction": The researchers first produce the hydrophobic regions by polymerizing CO2 and propylene oxide (as the epoxide component). In the same vessel, they then change to a different building block, allyl glycidyl ether (AGE), an epoxide with a double bond in its side chain, and continue the polymerization. The AGE-containing polymer grows on both ends of the existing polycarbonate, leading to a triblock copolymer. The length of the blocks can be controlled precisely. Subsequently a "thiol–ene click reaction" can be used to simply "click" a water-soluble group into place at the double bond. This makes it possible to attach acidic and/or basic groups that carry a positive or negative charge in certain pH ranges. Some of the amphiphilic polycarbonates made by this method are able to aggregate into particles or micelles in a self-organization process. This, and the ability to attach bioactive substances, for example, could provide many more possibilities for biomedical applications.
Explore further:
Bristly Spheres as Capsules
More information: "Construction of Versatile and Functional Nanostructures Derived from CO2-based Polycarbonates." Angew. Chem. Int. Ed.. doi: 10.1002/anie.201505076
Related Stories
More information: "Construction of Versatile and Functional Nanostructures Derived from CO2-based Polycarbonates." Angew. Chem. Int. Ed.. doi: 10.1002/anie.201505076
Related Stories
Bristly Spheres as Capsules March 6, 2009
(PhysOrg.com) -- Amphiphilic molecules, which have one water-friendly (hydrophilic) end and one water-repellant (hydrophobic) end, spontaneously aggregate in aqueous solutions to make superstructures like capsules or bilayers. ...
Copolymerization of metal nanoparticles for the production of colloidal plasmonic copolymers February 24, 2014
Molecules can copolymerize to form longer composite chains; it turns out that nanoparticles called colloidal particles can also copolymerize to make hybrid nanostructures. The fact that these reactions occur in a very similar ...
Molecules can copolymerize to form longer composite chains; it turns out that nanoparticles called colloidal particles can also copolymerize to make hybrid nanostructures. The fact that these reactions occur in a very similar ...
Polymers that can be fine-tuned for optimal effect could help fight multidrug-resistant infections July 2, 2014
The rise of drug-resistant microbes is a major challenge facing medicine. The World Health Organization's 2014 report on global surveillance of antimicrobial resistance warns of the very real possibility of the twenty-first ...
Sulfur fluoride exchange—a powerful new reaction for click chemistry September 1, 2014
(Phys.org) —The coupling of molecular building blocks nearly as easy as "snapping" them together can be realized by means of the "click chemistry" tool kit. American scientists have now introduced another achievement for ...
New silicon peptide biopolymers February 6, 2015
Copolymers made from synthetic and biomimetic components open new and interesting perspectives as biocompatible, biodegradable materials that can also be given biological functionality. In the journal Angewandte Chemie, French ...
Copolymers made from synthetic and biomimetic components open new and interesting perspectives as biocompatible, biodegradable materials that can also be given biological functionality. In the journal Angewandte Chemie, French ...
Catalyst that converts carbon dioxide to carbon monoxide in water June 3, 2015
(Phys.org)—Clean energy, or energy that comes from renewable sources, is of interest in the developing world. One path toward clean energy is harnessing solar energy and converting it into electrical energy, which could ...
Recommended for you
Graphene drives potential for the next-generation of fuel-efficient cars August 4, 2015
Harvesting heat produced by a car's engine which would otherwise be wasted and using it to recharge the car's batteries or powering the air-conditioning system could be a significant feature in the next generation of hybrid ...
Harvesting heat produced by a car's engine which would otherwise be wasted and using it to recharge the car's batteries or powering the air-conditioning system could be a significant feature in the next generation of hybrid ...
Materials scientists take big step toward tougher ductile ceramics August 4, 2015
A team of materials scientists at the UCLA Henry Samueli School of Engineering and Applied Science is exploring ways to create tough ceramics, a long sought-after class of materials that would be exceptionally hard, capable ...
Scientists devise method for rescuing genetic material from formaldehyde-treated tissue samples August 4, 2015
Each year, millions of tissue samples are collected from cancer patients and preserved in formaldehyde. The chemical "freezes" the cancer cells within the sample, allowing physicians to look at the disease and plan a specific ...
Sol-gel capacitor dielectric offers record-high energy storage July 30, 2015
Using a hybrid silica sol-gel material and self-assembled monolayers of a common fatty acid, researchers have developed a new capacitor dielectric material that provides an electrical energy storage capacity rivaling certain ...
Origins of life: New model may explain emergence of self-replication on early Earth July 28, 2015
When life on Earth began nearly 4 billion years ago, long before humans, dinosaurs or even the earliest single-celled forms of life roamed, it may have started as a hiccup rather than a roar: small, simple molecular building ...
ORIGINAL: Phys.org
July 28, 2015
No hay comentarios:
Publicar un comentario
Nota: solo los miembros de este blog pueden publicar comentarios.