RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
RT @CamiloPrietoVal: 1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y e…
1. La reutilización del polietileno (plástico más común del🌎) es una alternativa para reducir su impacto ambiental y esta investigación👉🏽https://t.co/9TwfpCBXxu publicada en @ScienceMagazine explica cómo mediante reciclaje químico ese proceso puede ser muc
Polyethylene #upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization. Authors report that a platinum/alumina catalyst can transform waste polyethylene directly into long-chain alkylbenzenes, a feedstock for #detergent manufacture ht
@Kattavernd Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis Sci https://t.co/stfP4ILM2l
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
タンデム水素化分解/芳香族化による長鎖アルキル芳香族化合物へのポリエチレンのアップサイクリング https://t.co/vHRLhMnv9A https://t.co/TyswsMCua6 #サイエンス誌
Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization https://t.co/nwQjew8nUq #generalscience #feedly
Un nuevo método para sobrerreciclar el polietileno genera valor a partir de los desechos plásticos. https://t.co/qQ79Pddane
RT @CrankyOldBiddy: Nice results from the UCSB team! https://t.co/vFA8WBQWtO
RT @CrankyOldBiddy: Nice results from the UCSB team! https://t.co/vFA8WBQWtO
RT @CrankyOldBiddy: Nice results from the UCSB team! https://t.co/vFA8WBQWtO
RT @CrankyOldBiddy: Nice results from the UCSB team! https://t.co/vFA8WBQWtO
It was fun to get a chance to comment on this (https://t.co/VQTC5MqV0R ) paper. Going from 9.45 kg/mol (Ð=7.4) to C31 (Ð=1.1) in the melt at 280°C is quite a feat. I'm anxious to see if it can be applied to post-consumer plastics.
RT @CrankyOldBiddy: Nice results from the UCSB team! https://t.co/vFA8WBQWtO
Big 🎉congratulations🎉 to our colleagues, Profs. Scott and Abu-Omar, and their team, on developing new methods for upcycling polyethylene without solvents or H2 under mild conditions! https://t.co/tWUzKZrbij
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
RT @CrankyOldBiddy: Nice results from the UCSB team! https://t.co/vFA8WBQWtO
Congrats! #iCOUP @doescience
Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization | Science https://t.co/dByJfPVBRP
Nice results from the UCSB team! https://t.co/vFA8WBQWtO
Some truly inspiring work for the end of this week https://t.co/2MoPBNtEYV
I'm geeking out about this paper because it's totally up my alley. The only reason I got into grad school was because I wrote a surprisingly prescient (in hindsight) proposal on applying molecular dehydrogenation catalysts to polyolefins. https://t.co/T9
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
A New Way To Break Down the Most Common Plastic! https://t.co/S3HtrQEWTS
Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization | Science https://t.co/gJ2FpFqmma
RT @JakeYeston: This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no adde…
Impressive work on polyethylene upcycling from my undergrad advisor, Susannah Scott. Interning with her made me want to be a chemist.
Using a unique catalyst to molecularly deconstruct polyethylene, the most commonly used form of plastic, researchers present a solvent-free way to transform it into higher-value, widely used chemical compounds. https://t.co/LA4silQJVS
RT @JakeYeston: Have a look at the Perspective from @BWeckhuysen too! https://t.co/sGgqL6JF5d
Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization https://t.co/B6NkRwGo8m
Have a look at the Perspective from @BWeckhuysen too! https://t.co/sGgqL6JF5d
This week in @ScienceMagazine Susannah Scott and collaborators turn polyethylene into long-chain alkylbenzenes with no added hydrogen https://t.co/YbfdWYxr7y