Fungi are vital to natural ecosystems by breaking down dead organic material and cycling it back into the environment as ...

The structural properties in the mycelium of a common soil mold show promise in biomedical applications, such as hydrogels ...

A new study, led by researchers at the University of Liverpool, has revealed how pathogenic bacteria construct tiny ...

Here are 10 takeaways from The Oregonian/OregonLive’s four-part series on school seismic safety in the Portland area.

A common soil fungus forms strong hydrogels that could inspire next-generation biomedical materials for tissue regeneration.

Faculty who spoke with the Post-Dispatch said they are looking for more answers as to why the university eliminated 316 staff positions and closed 198 unfilled vacancies.

Additive manufacturing of alloys has enabled the creation of machine parts that meet the complex requirements needed to ...

Foreigners outnumbered Australian students at the nation’s oldest university last year, with new figures revealing for the ...

With mounting repair costs that could top $100 million, Dallas’ City Hall is at the center of what likely will be a public ...

Viviana Monje’s work is part of larger effort to employ AI and other tools to develop eco-friendly membranes for use in medicine, agriculture, industry and other fields.

Molecular engineering of a zinc battery co-solvent improves plating stability, suppresses side reactions, and delivers near-perfect efficiency through a single functional group substitution.

The work, part of larger $2 million effort, will employ AI and other tools to develop eco-friendly membranes for use in medicine, agriculture, industry and other fields.