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Solvent- and catalyst-free reduction of CO<sub>2</sub> with ammonia borane
Lombardo, L., Nishiguchi, T., Ko, Y., Zhong, L., Horike, N., Züttel, A., & Horike, S. (2024). Solvent- and catalyst-free reduction of CO2 with ammonia borane. Green Chemistry. https://doi.org/10.1039/d3gc04399a
Net-zero transition of the global chemical industry with CO<sub>2</sub>-feedstock by 2050: feasible yet challenging
Huo, J., Wang, Z., Oberschelp, C., Guillén-Gosálbez, G., & Hellweg, S. (2023). Net-zero transition of the global chemical industry with CO2-feedstock by 2050: feasible yet challenging. Green Chemistry, 25(1), 415-430. https://doi.org/10.1039/d2gc03047k
Electrospinning based on benign solvents: current definitions, implications and strategies
Avossa, J., Herwig, G., Toncelli, C., Itel, F., & Rossi, R. M. (2022). Electrospinning based on benign solvents: current definitions, implications and strategies. Green Chemistry, 24(6), 2347-2375. https://doi.org/10.1039/D1GC04252A
Non-biocidal preservation of wood against brown-rot fungi with a TiO<sub><small>2</small></sub>/Ce xerogel
Guo, H., Bachtiar, E. V., Ribera, J., Heeb, M., Schwarze, F. W. M. R., & Burgert, I. (2018). Non-biocidal preservation of wood against brown-rot fungi with a TiO2/Ce xerogel. Green Chemistry, 20(6), 1375-1382. https://doi.org/10.1039/c7gc03751a
A straightforward thiol-ene click reaction to modify lignocellulosic scaffolds in water
Kostić, S., Berg, J. K., Casdorff, K., Merk, V., Burgert, I., & Cabane, E. (2017). A straightforward thiol-ene click reaction to modify lignocellulosic scaffolds in water. Green Chemistry, 19(17), 4017-4022. https://doi.org/10.1039/c7gc01601h
Hybrid wood materials with improved fire retardance by bio-inspired mineralisation on the nano- and submicron level
Merk, V., Chanana, M., Keplinger, T., Gaan, S., & Burgert, I. (2015). Hybrid wood materials with improved fire retardance by bio-inspired mineralisation on the nano- and submicron level. Green Chemistry, 17(3), 1423-1428. https://doi.org/10.1039/C4GC01862A