What if a battery could be made with higher energy and power densities than those currently available, while exploiting a natural material that’s both abundant, recyclable and inexpensive? Last year, the blog reported on Y. H. Percival Zhang’s work with xylose, a sugar found in most plants, to make hydrogen that could be used in fuel cells. Dr. Zhang, with a Ph.D. in chemical engineering and biotechnology from Dartmouth University, draws on his unique pair of specialties to inspire his forays into developing novel ways of extracting energy from natural sources. His latest effort is a battery that runs on maltodextrin, a polysaccharide made from the partial hydrolysis of starch. That starch can be derived from almost any type of plant, a ubiquitous and non-food-based source. This makes for a tidy life cycle, extracting the raw materials from nature and being able at the end of the battery’s long and refillable run to return them to nature without fear of …