Aresta M, Dibenedetto A, Angelini A. Catalysis for the valorization of exhaust carbon: from CO2 to chemicals, materials, and fuels. Technological use of CO2. Chem Rev. 2014;114:1709–42.
Liu Q, Wu L, Jackstell R, Beller M. Using carbon dioxide as a building block in organic synthesis. Nat Commun. 2015;6:5933.
Grignard B, Gennen S, Jérôme C, Kleij AW, Detrembleur C. Advances in the use of CO2 as a renewable feedstock for the synthesis of polymers. Chem Soc Rev. 2019;48:4466–514.
Poland SJ, Darensbourg DJ. A quest for polycarbonates provided via sustainable epoxide/CO2 copolymerization processes. Green Chem. 2017;19:4990–5011.
Huang J, Worch JC, Dove AP, Coulembier O. Update and challenges in carbon dioxide‐based polycarbonate synthesis. ChemSusChem. 2020;13:469–87.
Orgilés-Calpena E, Arán-Aís F, Torró-Palau AM, Montiel-Parreño E, Orgilés-Barceló C. Synthesis of polyurethanes from CO2-based polyols: A challenge for sustainable adhesives. Int J Adhes Adhes 2016;67:63–8.
Zhao Y, Wang Y, Zhou X, Xue Z, Wang X, Xie X, Poli R. Oxygen‐triggered switchable polymerization for the one‐pot synthesis of CO2‐based block copolymers from monomer mixtures. Angew Chem. 2019;131:14449–56.
Yang G-W, Zhang Y-Y, Wang Y, Wu G-P, Xu Z-K, Darensbourg DJ. Construction of autonomic self-healing CO2-based polycarbonates via one-pot tandem synthetic strategy. Macromolecules. 2018;51:1308–13.
Wang Y, Fan J, Darensbourg DJ. Construction of versatile and functional nanostructures derived from CO2‐based polycarbonates. Angew Chem Int Ed. 2015;54:10206–10.
Bhat GA, Rashad AZ, Folsom TM, Darensbourg DJ. Placing single-metal complexes into the backbone of CO2-based polycarbonate chains, construction of nanostructures for prospective micellar catalysis. Organometallics. 2020;39:1612–8.
Pectol DC, Khan S, Chupik RB, Elsabahy M, Wooley KL, Darensbourg MY, Lim S-M. Toward the optimization of dinitrosyl iron complexes as therapeutics for smooth muscle cells. Mol Pharm. 2019;16:3178–87.
Qin Z, Thomas CM, Lee S, Coates GW. Cobalt‐based complexes for the copolymerization of propylene oxide and CO2: active and selective catalysts for polycarbonate synthesis. Angew Chem Int Ed. 2003;42:5484–7.
Darensbourg DJ, Chung W-C, Wang K, Zhou H-C. Sequestering CO2 for short-term storage in MOFs: copolymer synthesis with oxiranes. ACS Catal. 2014;4:1511–5.
Allen SD, Moore DR, Lobkovsky EB, Coates GW. High-activity, single-site catalysts for the alternating copolymerization of CO2 and propylene oxide. J Am Chem Soc. 2002;124:14284–5.
Chisholm MH, Navarro-Llobet D, Zhou Z. Poly (propylene carbonate). 1. More about poly (propylene carbonate) formed from the copolymerization of propylene oxide and carbon dioxide employing a zinc glutarate catalyst. Macromolecules. 2002;35:6494–504.
Cohen CT, Chu T, Coates GW. Cobalt catalysts for the alternating copolymerization of propylene oxide and carbon dioxide: combining high activity and selectivity. J Am Chem Soc. 2005;127:10869–78.
Ren W, Zhang W, Lu X. Highly regio-and stereo-selective copolymerization of CO2 with racemic propylene oxide catalyzed by unsymmetrical (S,S,S)-salenCo (III) complexes. Sci China Chem. 2010;53:1646–52.