RT @NanoElectrocat: Congratulations to @gustav_sievers and Anders on their @NatureMaterials paper on self-supported nanostructured Pt-CoO n…
RT @NanoElectrocat: Congratulations to @gustav_sievers and Anders on their @NatureMaterials paper on self-supported nanostructured Pt-CoO n…
RT @NanoElectrocat: Congratulations to @gustav_sievers and Anders on their @NatureMaterials paper on self-supported nanostructured Pt-CoO n…
RT @NanoElectrocat: Congratulations to @gustav_sievers and Anders on their @NatureMaterials paper on self-supported nanostructured Pt-CoO n…
RT @NanoElectrocat: Congratulations to @gustav_sievers and Anders on their @NatureMaterials paper on self-supported nanostructured Pt-CoO n…
Congratulations to @gustav_sievers and Anders on their @NatureMaterials paper on self-supported nanostructured Pt-CoO networks as high surface area #electrocatalysts for oxygen reduction. A great collaborative work with @ArenzLab @HEAcatalysis and many col
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @DCBunibern: Congratulations to @ArenzLab! https://t.co/xynxPpwlCi
Congratulations to @ArenzLab!
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
RT @NatureMaterials: Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction…
Article | Self-supported Pt–CoO networks combining high specific activity with high surface area for oxygen reduction @uni_copenhagen @DCBunibern @INPGreifswald https://t.co/R7A69yC8RJ https://t.co/9iNhwq3VQW
RT @Dragonmaurizio: Hydrogen fuel cells paradigm shift. @uni_copenhagen developed a new stable carbon-free electrocatalyst made in platinum…
RT @Dragonmaurizio: Hydrogen fuel cells paradigm shift. @uni_copenhagen developed a new stable carbon-free electrocatalyst made in platinum…
RT @JonathanQuinson: We did it. High specific activity with high surface area electrocatalysts. Well done @gustav_sievers.
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
Hydrogen fuel cells paradigm shift. @uni_copenhagen developed a new stable carbon-free electrocatalyst made in platinum-cobalt oxide alloy (Pt–CoO), built on a network of nanowires instead of nano particle which increases the oxygen reduction surface rate.
RT @Abdubabraik: 2. قام باحثون في قسم الكيمياء بجامعة كوبنهاغن بتطوير محفز لا يتطلب هذه الكمية الكبيرة من البلاتين. رابط المقالة العلمية ل…
2. قام باحثون في قسم الكيمياء بجامعة كوبنهاغن بتطوير محفز لا يتطلب هذه الكمية الكبيرة من البلاتين. رابط المقالة العلمية للإطلاع https://t.co/4flrpIUxBe
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
RT @gustav_sievers: Such an awesome journey ft. self supporting catalysts for oxygen reduction. Now we want to get it into application! Tha…
Such an awesome journey ft. self supporting catalysts for oxygen reduction. Now we want to get it into application! Thanks @ all for the wonderful collaboration and @BMBF_Bund VIP+
RT @JonathanQuinson: We did it. High specific activity with high surface area electrocatalysts. Well done @gustav_sievers. https://t.co/CDz…
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
We did it. High specific activity with high surface area electrocatalysts. Well done @gustav_sievers.
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
Congrats Gustav! https://t.co/2qtpKkDayj First paper with all PIs @HEAcatalysis #CHEAC!
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
RT @HEAcatalysis: Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity ht…
Our new paper in Nature Mat. First collaboration between all PIs in #CHEAC #DNRF @uni_copenhagen @ChemKUniversity https://t.co/oROsdeUJP3