My primary research project concerns the philosophy of nanoscience. Nanoscience is part chemistry, part physics, and part materials science. It has grown up around the development of practical technologies aimed at solving extra-scientific problems, including medical imaging and the energy crisis. To solve these problems, nanoscientists are synthesizing new materials with never-before-seen properties, and they are using scientific models and theories in new ways to figure out how to manipulate and control these properties in new machines, devices, and medical therapies. As a philosopher of nanoscience, I examine the theories, models, reasoning strategies, and other conceptual tools that nanoscientists use to accomplish their goals, and I study how these conceptual tools can in turn reveal new information about the character of scientific knowledge. This project connects with four main issues in general philosophy of science: modeling, explanation, classification, and inter-theory relations.
I am also beginning a new project on the role of agricultural science in informing scientific epistemology. This project employs similar methodology to my work in nanoscience. Like the nanoscience project, it also investigates a set of scientific practices that has been largely overlooked in philosophy of science, and which is driven by heavily "applied" aims. In future work, I hope to use my findings from both nanoscience and agricultural science to establish a philosophy of applied science.