Overview of organic synthetic macromolecules -- Thermal decomposition of polymers -- Review of analytical pyrolysis instrumentation -- Information generated from analytical pyrolysis studies -- ...

Self-organized structures that emerge on gel surfaces across diverse spatiotemporal scales. This review introduces classical studies on these structures and further discusses recent advances and ...

Double helical covalent polymers—which are spiraling collections of nature’s building blocks—are fundamental to life itself, and yet, despite decades of research, scientists have never been able to ...

Scientists have developed the first cells that can construct artificial polymers from building blocks that are not found in nature, by following instructions the researchers encoded in their genes.

The creation of plastics from polymers is now an old industry. So, there are many methods, sub-methods, and specific synthetic variations now used by academics and industry scientists to create ...

Polymer-based gene delivery systems represent a promising class of non-viral vectors, offering significant advantages in safety, structural versatility, biodegradability, and the potential for ...

Synthetic polymers are employed in a wide range of industries, including food, automotive, and packaging, for a variety of applications. The caliber of the polymers or polymer blends utilized during ...

Macromolecular-based gene delivery systems have emerged as viable alternatives to non-viral vectors for gene therapy due to their versatility, biocompatibility, and capacity to efficiently deliver ...