Innovative Approach to Subsea Formation Strengthening Recent breakthroughs in microbially induced calcium carbonate precipitation (MICP) technology have opened new possibilities…
Scientists have engineered a core-shell nano-adsorbent demonstrating exceptional selectivity and capacity for toxic hydrogen sulfide gas removal. The innovative material achieved 94.3% adsorption efficiency under optimized conditions, according to recent findings.
Researchers have developed an advanced core-shell hybrid nanomaterial that demonstrates remarkable efficiency in selectively capturing toxic hydrogen sulfide gas, according to recent scientific reports. The MIL-101(Cr)@MIPs@H₂S adsorbent achieved an optimal adsorption capacity of 360.11 mg/g with 94.3% efficiency under carefully optimized conditions, sources indicate.
Scientists are developing bandages from living fungi that could transform wound care. These bio-integrated hydrogels mimic human tissue structure and retain up to 83% water, offering promising applications in tissue regeneration and medical devices.
Living fungi could revolutionize wound healing through innovative bandages made from fungal hydrogels that mimic human tissue structure. Researchers at the University of Utah have discovered that Marquandomyces marquandii, a common soil mold, forms multilayered hydrogels capable of standing in for our own soft tissues. This breakthrough in hydrogel technology represents a significant advancement in biomedical materials that could transform how we approach tissue regeneration and wound care.
