WangL-env (@envwangl) 's Twitter Profile
WangL-env

@envwangl

Professor, School of Environmental Science and Engineering, Tongji University, China. Alum @TheElimelechLab. #FirstGen

ID: 1354202722812239874

calendar_today26-01-2021 23:01:11

73 Tweet

420 Followers

262 Following

Yale Engineering (@yaleengineering) 's Twitter Profile Photo

A team of researchers, led by the lab of Yale Environmental Engineering Prof. Menachem Elimelech, reveal that the standard explanation for how reverse osmosis works — one that has been accepted for more than 50 years(!) — is fundamentally wrong: seas.yale.edu/news-events/ne…

A team of researchers, led by the lab of Yale Environmental Engineering Prof. Menachem Elimelech, reveal that the standard explanation for how reverse osmosis works — one that has been accepted for more than 50 years(!) — is fundamentally wrong: seas.yale.edu/news-events/ne…
VU Engineering (@vuengineering) 's Twitter Profile Photo

Congrats to Shihong Lin! The civil and environmental associate professor and two biomedical engineering doctoral students were honored recently at the inaugural Graduate School Honors Banquet. bit.ly/3piAmvy

Dariush M. Heiranian (@mosi_jon) 's Twitter Profile Photo

(1/9) We Menachem Elimelech Yale Environ. Eng. are excited to share our new Chem Soc Rev Royal Society of Chemistry tutorial review “Mechanisms and models for water transport in reverse osmosis membranes: history, critical assessment, and recent developments” 👉 tinyurl.com/3s7c47bz

(1/9)
We <a href="/TheElimelechLab/">Menachem Elimelech</a> <a href="/YaleEnvEng/">Yale Environ. Eng.</a> are excited to share our new <a href="/ChemSocRev/">Chem Soc Rev</a> <a href="/RoySocChem/">Royal Society of Chemistry</a> tutorial review “Mechanisms and models for water transport in reverse osmosis membranes: history, critical assessment, and recent developments”
👉 tinyurl.com/3s7c47bz
Chem Soc Rev (@chemsocrev) 's Twitter Profile Photo

This one is #OpenAccess 🔓 Check out "Mechanisms and models for water transport in reverse osmosis membranes: history, critical assessment, and recent developments" by Menachem Elimelech & co. Read the full Tutorial review here 🔗 rsc.li/3FUPNPQ rsc.li/3FUPNPQ

WangL-env (@envwangl) 's Twitter Profile Photo

Salinity gradient energy is not viable. Simply put, the low energy density is the killer. Please refer to our recent perspective publish in Joule.

Nature Reviews Methods Primers (@methodsprimers) 's Twitter Profile Photo

Discover the transformative power of pressure-driven membrane desalination in our latest Primer. This technology is vital for providing clean drinking water, combating water scarcity and ensuring a sustainable futuređź’§ @EnvWang Razi Epsztein Zhangxin Wang go.nature.com/3wiVlSv

Discover the transformative power of pressure-driven membrane desalination in our latest Primer. This technology is vital for providing clean drinking water, combating water scarcity and ensuring a sustainable futuređź’§ @EnvWang <a href="/EpszteinLab/">Razi Epsztein</a> <a href="/wang_zhangxin/">Zhangxin Wang</a>
go.nature.com/3wiVlSv
Hanqing Fan (@fan_hanqing) 's Twitter Profile Photo

We Menachem Elimelech Yale Environ. Eng. are excited to share our recent paper in Science Advances revealing that solvent transport in Organic Solvent Nanofiltration (OSN) membranes is governed by a pore-flow mechanism. science.org/doi/10.1126/sc…