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Good news! Latest data from Boston wastewater surveillance shows the Omicron wave is basically over

The future of batteries is here. With lineage from Nobel laureate Prof.JB Goodenough's lab, Group1 is the world's first company commercializing cathode materials enabling potassium-ion batteries. prn.to/3zyeKOw

The Feynman Technique (how to learn anything):

Today we are pleased to announce a strategic partnership and technology license agreement with Sharp Corporation for potassium-ion battery technology. linkedin.com/feed/update/ur…

Our paper is online. 😀pubs.rsc.org/en/content/art…. In this paper, we use low-intensity mixing to process high molecular weight polymer chains, leading to elastomers of long network strands and high fatigue threshold.

We are told that our paper will come out today in Nature. So excited! Jason Steck Junsoo Kim Yakov Kutsovsky

Here is a video of our work by Dan Fox, the Multimedia Editor at Nature. He told me that it is one of the most fundamental works he will produce this year. Check this out! Junsoo Kim Yakov Kutsovsky Zhigang Suo nature.com/articles/d4158…

For our recent paper published in Nature, Dan Fox, the Multimedia Editor, produced a three-minute video. The video is nicely done—Take a watch. The rubber that stops cracks in their tracks nature.com/articles/d4158…

Our paper is online! Preserving long chains in natural rubber forms a network with long strands, dense entanglements, and strain-induced crystallization, greatly enhancing crack resistance. nature.com/articles/s4189… Zheqi Chen Xianyang Bao MWM_Tan Yakov Kutsovsky Zhigang Suo

New milestone after our 2023 Nature stress-deconcentration paper: in @NatureSustain we skip mastication, keep long NR chains, let them tangle & crystallize. Crack resistance ×5, toughness ×10. Next step on our path towards elimination of rubber road dust and long-life tyres

Materials scientists have devised a way to produce natural rubber that retains its key properties of stretchiness and durability while greatly improving its ability to resist cracking, even after repeated cycles of use. bit.ly/4dpEHCl

Our paper is online! 😀 We developed a tough hydrogel that achieves high modulus, high fatigue threshold, and low hysteresis — simultaneously! 🔗 nature.com/articles/s4146… Many thanks to Zhigang Suo Zheqi Chen Guodong Nian MWM_Tan Yakov Kutsovsky Christine Heera Ahn

Thrilled to co-lead this new Nature Communications paper with Zhigang Suo and our stellar team! We weave ultra-long chains through reversible H-bond domains, creating tough, low-loss elastomers. Next stop: adapting the chemistry for tire-grade and other high-cycle applications.

A report on our recent paper New Tires Could End Up Ten Times Tougher With Harvard's Crack-Resistant Rubber Guodong Nian Zheqi Chen Xianyang Bao MWM_Tan Yakov Kutsovsky jalopnik.com/1896687/new-ti… jalopnik.com/1896687/new-ti…