Led by Noriyuki Isobe, the team engineered the material using a lithium bromide solution to dissolve cellulose, a fibrous compound found in plant cell walls. Unlike previous methods that relied on ...

A reagent chemical within that liquid – namely methyl ammonium bromide – instantly reacts with any lead particles that may be present, converting them into a semiconductor mineral known as ...

WITH the arrival of summer comes the dreaded hay fever season for many. But relief doesn’t have to break the bank.  Switching ...

TETRA Technologies, Inc.’s TTI share price has dipped by 5.30%, which has investors questioning if this is right time to buy.

A study in Engineering reveals a new adsorbent made by combining cationic surfactants with montmorillonite. This adsorbent can selectively remove ...

In this valuable study, the authors demonstrate that TCF7L2 plays a role in the pathogenesis of cachexia in a mouse model of GI cancer. The results are solid, although future studies will need further ...

A new study demonstrates how nitrogen-doped porous carbon materials derived from metal-organic frameworks (MOFs) can improve ...

Q1 2025 Results Conference Call April 30, 2025 10:30 AM ETCompany ParticipantsKurt Hallead - VP, Treasurer and Head ...

They made a thick cellulose hydrogel by dissolving cellulose in an aqueous lithium bromide solution. Drying the hydrogel gave clear cellulose sheets that were a millimeter-thick. The researchers ...

Brady Murphy; President, Chief Executive Officer, Director; Tetra Technologies Inc Elijio Serrano; Chief Financial Officer, Senior Vice President; Tetra Technologies Inc Good morning, everybody, and ...