Using our News Commentary feature (client registration required), Lux Research analysts have been tracking the energy storage space with unprecedented detail, covering more than 300 chosen individual developments during the past half year. These innovation-related events span from partnerships and investments to new research and new factories, and include information about the companies involved and our own takes on the developments. While this set of coverage is not meant to include every single development, it does capture much of what Lux analysts think is worth considering. The full dataset is available to Lux members to explore here, by clicking the News tab’s Energy Storage filter (client registration required), which includes interactive versions of the visualizations shown below. To help extract insights from this wealth of data, in this summary we analyze the trends that have emerged out of this in-depth coverage of how the energy storage landscape looks like in 2017 thus far, using the following heat map:
We’ve expressed in the past that accurate and reliable early-stage disease detection combined with non-invasive sample collection is the holy grail of molecular diagnostics. Previously, we discussed the growing popularity of non-invasive saliva-based diagnostics in the context of this theme (see the insight “Digital IVD sample of the future: Saliva” [client registration required]). While less mature, sweat based tests, too, present a compelling avenue for non-invasive sensing in medical, enterprise, and consumer applications. To gauge the state of innovation in sweat sensing, we surveyed the evolving landscape of sweat sensors patents. In total, we identified 1,009 patents for the search terms “sweat sensor” and “perspiration sensor” published in the past decade. As evident by Figure 1 below, sweat sensing technologies have seen consistent increase in patents applications. 2016 saw most activity, with a total of 194 patent grants and applications.