RT @StepsLeaps: Often discussed in tonight's wooden satellite talk, the prospect of improving the very fundamental structures of wood. Than…
RT @StepsLeaps: Often discussed in tonight's wooden satellite talk, the prospect of improving the very fundamental structures of wood. Than…
Often discussed in tonight's wooden satellite talk, the prospect of improving the very fundamental structures of wood. Thanks @NuNeoNew for the link! https://t.co/lp9dMU3N03
RT @torgny_persson: Starka trådar från skogen mycket spännande forskning som ger nya möjligheter😀 https://t.co/sW7xcR59ra
RT @torgny_persson: Starka trådar från skogen mycket spännande forskning som ger nya möjligheter😀 https://t.co/sW7xcR59ra
Starka trådar från skogen mycket spännande forskning som ger nya möjligheter😀
RT @TREESEARCH_se: @Skogsindustrin Swedish research on forest based materials gets European attention, ZDF visits #WWSC researchers perform…
RT @TREESEARCH_se: @Skogsindustrin Swedish research on forest based materials gets European attention, ZDF visits #WWSC researchers perform…
RT @TREESEARCH_se: @Skogsindustrin Swedish research on forest based materials gets European attention, ZDF visits #WWSC researchers perform…
@Skogsindustrin Swedish research on forest based materials gets European attention, ZDF visits #WWSC researchers performing experiments @DESY (starts 16:11, in German) https://t.co/8GG8APfZ4j @2017Kaw100 https://t.co/BQ8B23RzPs
@norabar @janarhertz @EGudynas @frascafrasca @RMandressi @danielfigares El grupo de Daniel Söderberg en el Centro de Ciencias de la Madera Wallenberg en Estocolmo, Suecia, ha desarrollado un método para construir fibras largas a partir de nanofibrillas de
RT @soderbergd: Thanks to @2017Kaw100 for the fantastic 10-years funding of #WWSC which now continues into a new 10-years period! @Skogsind…
RT @soderbergd: Thanks to @2017Kaw100 for the fantastic 10-years funding of #WWSC which now continues into a new 10-years period! @Skogsind…
RT @soderbergd: Thanks to @2017Kaw100 for the fantastic 10-years funding of #WWSC which now continues into a new 10-years period! @Skogsind…
RT @soderbergd: Thanks to @2017Kaw100 for the fantastic 10-years funding of #WWSC which now continues into a new 10-years period! @Skogsind…
RT @acsnano: Happy New Year to our readers, authors, referees, staff, & editors #aroundtheworld! Here is a shout out to our #mostread paper…
RT @soderbergd: Thanks to @2017Kaw100 for the fantastic 10-years funding of #WWSC which now continues into a new 10-years period! @Skogsind…
RT @ACarlmark: Wow!! Congratulations @soderbergd and coworkers!!! 👏🏻👏🏻👏🏻 https://t.co/2sPkbHIHc1
Thanks to @2017Kaw100 for the fantastic 10-years funding of #WWSC which now continues into a new 10-years period! @Skogsindustrin @TREESEARCH_se @IVA1919
Wow!! Congratulations @soderbergd and coworkers!!! 👏🏻👏🏻👏🏻
RT @acsnano: Happy New Year to our readers, authors, referees, staff, & editors #aroundtheworld! Here is a shout out to our #mostread paper…
RT @acsnano: Happy New Year to our readers, authors, referees, staff, & editors #aroundtheworld! Here is a shout out to our #mostread paper…
RT @acsnano: Happy New Year to our readers, authors, referees, staff, & editors #aroundtheworld! Here is a shout out to our #mostread paper…
RT @acsnano: Happy New Year to our readers, authors, referees, staff, & editors #aroundtheworld! Here is a shout out to our #mostread paper…
Happy New Year to our readers, authors, referees, staff, & editors #aroundtheworld! Here is a shout out to our #mostread paper of #2019 https://t.co/Ehj0BWNb3u from Daniel Söderberg @KTHuniversity @acsnano editor Nick Kotov @kotov_group @UMengineering
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
RT @soderbergd: We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano…
We’re recruiting 3 new PhD-students to work with our new technology for making the worlds strongest #biomaterial from #nano cellulose? The doctoral studies will be performed within #WWSC https://t.co/l5Pj0q5b2Z https://t.co/EwstDrPYwT
RT @acsnano: Coverage in @WIRED of one of @acsnano's most-read articles of 2018 so far: https://t.co/f2AQlMSOah. Read the full research art…
Coverage in @WIRED of one of @acsnano's most-read articles of 2018 so far: https://t.co/f2AQlMSOah. Read the full research article at https://t.co/FPAYr7APVj #nanotechnology #biomaterials https://t.co/6Kf1YrvfHB
Making wood great again...
RT @FCervantesSodi: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers…
Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers https://t.co/4A21ho9SP5
RT @TREESEARCH_se: Research by #WWSC has impact, most downloaded in @acsnano during last 12 months after only 4 months since publication, h…
RT @acsnano: Coverage in @WIRED of one of our most-read articles of 2018 so far: https://t.co/vSirFulvVw. Read the full research article at…
RT @acsnano: Coverage in @WIRED of one of our most-read articles of 2018 so far: https://t.co/vSirFulvVw. Read the full research article at…
RT @acsnano: Coverage in @WIRED of one of our most-read articles of 2018 so far: https://t.co/vSirFulvVw. Read the full research article at…
Coverage in @WIRED of one of our most-read articles of 2018 so far: https://t.co/vSirFulvVw. Read the full research article at https://t.co/oJLDYpLM0j #nanotechnology #biomaterials https://t.co/DlFrc7jCP3
RT @ACSNanotation: Coverage in @WIRED of one of @acsnano's most-read articles of 2018 so far: https://t.co/ddHVG6iSXE. Read the full resear…
Coverage in @WIRED of one of @acsnano's most-read articles of 2018 so far: https://t.co/ddHVG6iSXE. Read the full research article at https://t.co/48Ij9NdWNY #nanotechnology #biomaterials https://t.co/zzNka1hVcH
RT @BeikiNasser: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers http…
Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers https://t.co/EdxnoJM4Fi
Now @acsnano most downloaded paper (monthly and last 12 months), https://t.co/EwstDrPYwT
https://t.co/ehfDNPfRPn Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers #sciencenews https://t.co/nzZ1JBDuDl
RT @ACSNanotation: Selected for Editor's Choice & now available #OpenAccess, the current most-read @acsnano article presents a method that…
RT @ACSNanotation: Selected for Editor's Choice & now available #OpenAccess, the current most-read @acsnano article presents a method that…
Selected for Editor's Choice & now available #OpenAccess, the current most-read @acsnano article presents a method that assembles cellulose nanofibres into a material stronger than spider silk. Read it now: https://t.co/dFY7oANhi7 #biomaterials #nanote
RT @NeilGerardo: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers http…
Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers https://t.co/xkysiAa6ux
RT @FriedrichSteff3: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers…
Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers https://t.co/3NyKiXYt2G
RT @acsnano: #Weekend @acsnano #reading https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniversity & #e…
RT @MASogorb: El biomaterial más fuerte del mundo supera al acero y a la seda de araña https://t.co/PtLXt7tlR2 Información adicional: Multi…
El biomaterial más fuerte del mundo supera al acero y a la seda de araña https://t.co/PtLXt7tlR2 Información adicional: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers https://t.co/2BFw
RT @acsnano: #Weekend @acsnano #reading https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniversity & #e…
RT @acsnano: #Weekend @acsnano #reading https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniversity & #e…
#Weekend @acsnano #reading https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniversity & #editor Nick Kotov @UMengineering @UMich /PSW #nano #mechanical #engineering #openaccess https://t.co/6EARLooOfg
RT @acsnano: Our new most #read @acsnano article https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniver…
RT @catyperex: Well done Nitesh Mittal! https://t.co/LYtB3i7VeW
RT @acsnano: Our new most #read @acsnano article https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniver…
Well done Nitesh Mittal! https://t.co/LYtB3i7VeW
RT @acsnano: Our new most #read @acsnano article https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniver…
RT @acsnano: Our new most #read @acsnano article https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniver…
RT @acsnano: Our new most #read @acsnano article https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniver…
Our new most #read @acsnano article https://t.co/Ehj0BWNb3u on super #strong cellulose fibers from Daniel Söderberg @KTHuniversity & #editor Nick Kotov @UMengineering @UMich /PSW #nano #mechanical #engineering look out @SpiderMan @SpiderManMovie https:
RT @rob_carlson: Article: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale F…
Article: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers Mittal, et al., ACS Nano. https://t.co/GMX15LQFEj
RT @Anduminas: New extremely stable #Biomaterial: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Me…
New extremely stable #Biomaterial: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale #Fibers https://t.co/iCmtTsT1r8
#Weekend #reading @acsnano - super #strong #nano cellulose assembly https://t.co/Ehj0BWNb3u from #editor Nick Kotov @UMengineering & Daniel Söderberg @KTHuniversity /PSW #materials #openaccess https://t.co/wQ0bVd8whT
RT @Mata_Lab: Great paper Daniel! @KTHuniversity! https://t.co/sxCwPGnl0g
RT @kgusler: Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers - https:…
RT @Mata_Lab: Great paper Daniel! @KTHuniversity! https://t.co/sxCwPGnl0g
Multiscale Control of Nanocellulose Assembly: Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers - https://t.co/ZX7QmyCR4G
Great paper Daniel! @KTHuniversity! https://t.co/sxCwPGnl0g
#Control of #nano cellulose assembly to control #macro scale properties https://t.co/Ehj0BWNb3u @acsnano from #editor Nick Kotov @UMengineering & Daniel Söderberg @KTHuniversity /PSW #materials #openaccess https://t.co/CqMIaZI4oW
RT @Sciguy999: Method assembles cellulose nanofibres into a material reported to surpass the strength of all known bio-based materials whet…
Method assembles cellulose nanofibres into a material reported to surpass the strength of all known bio-based materials whether fabricated or natural, including wood and spider silk. https://t.co/JW5Behzx49 https://t.co/qEhRgt9WRz via @physorg_com @cenmag