Shaping the future US bioeconomy through safety, security, sustainability, and social responsibility.

Biomanufacturing practitioners and researchers describe the norms that should govern the growing, global field, to include safety, security, sustainability, and social responsibility. These '4S Principles' should be broadly adopted so that the future of the field may provide the greatest benefits to society.

Emerging Life Sciences and Possible Threats to International Security.

At the intersection of emerging technologies and international affairs, one of the most provocative areas is the applications of advanced genetic engineering. The COVID-19 global pandemic and uncertainty about the origin of the causative virus illustrates both immediacy and the potential geopolitical implications of such technologies. These new gene editing techniques include one which has garnered a great deal of attention, the Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) systems, as well as other, less well-known ones.

Security implications and governance of cognitive neuroscience.

In recent years, significant efforts have been made toward elucidating the potential of the human brain. Spanning fields as disparate as psychology, biomedicine, computer science, mathematics, electrical engineering, and chemistry, research venturing into the growing domains of cognitive neuroscience and brain research has become fundamentally interdisciplinary. Among the most interesting and consequential applications to international security are the military and defense community's interests in the potential of cognitive neuroscience findings and technologies.

Microporous porphyrin solids.

Metalloporphyrins are exceedingly useful building blocks for the design and synthesis of molecularly based solids. The use of hydrogen bonding or metal ion coordination provides a wide range of framework solids. Using various polyfunctionalized porphyrins, we have created porous solids that are thermally robust and that retain their internal porosity upon loss of solvates.

A functional zeolite analogue assembled from metalloporphyrins.

The assembly of molecular building blocks with metal ions generating microporous network solids has been the focus of intense activity. Because of their potential applications associated with channels and cavities, such materials have been examined for size- and shape-selective catalysis, separations, sensors, molecular recognition and nanoscale reactors. Within this context, assemblies of robust and chemically versatile porphyrin and metalloporphyrin building blocks remain rare.