Stanford researchers at the Fan Group have designed and tested a highly efficient radiative cooler prototype with the following record-breaking performance results:
Mice hemizygous for the MRP8-Cre-ires/GFP transgene are viable and fertile, with the human S100 calcium binding protein A8 (calgranulin A) (MRP8 or S100A8) promoter directing bicistronic Cre and EGFP protein expression to granulocytes and granulocyte/macrophage progenitors (GM
Stanford researchers have developed a simple and rapid epoxy-based method for transferring photonic crystal (PC) cavities to the tip of an optical fiber.
Stanford researchers have developed an efficient and low-cost device which increases the energy harvest of a system by recovering these losses through module-level maximum power point tracking (MPPT).
Researchers in Prof. William Dally's laboratory have designed a dragonfly topology that reduces the cost of high-radix networks by reducing the number of long, global cables.
Compressed sensing has revolutionized signal acquisition by enabling high dimensional signals to be measured with remarkable fidelity using a small number of so-called incoherent sensors.
Researchers in Prof. Lambertus Hesselink's laboratory have developed a compact, sensitive X-ray differential phase contrast (DPC) imaging system that improves field of view, increases fringe visibility and shortens imaging times.
Researchers in Dr. Hanlee Ji's lab have developed a targeted sequencing method known as short tandem repeat (STR) sequencing (STR-Seq) which improves target selection specificity to generate only the STR spanning reads.
Stanford Prof. Juan Santiago and a team of engineers have developed a method of speeding up chemical reactions between a probe on a surface and a molecule in solution.
Engineers in Prof. Arunava Majumdar's laboratory have formulated high-entropy phase-change materials that can split water to produce hydrogen at moderate temperatures using a scalable, carbon-free process.
Researchers in Prof. Karl Deisseroth's laboratory have engineered versatile, virus-based constructs that are driven by neuronal activity to either label or optogenetically control those active neurons.
This compact, low-cost, high resolution angular position sensor is designed to improve the movement of rotary joints. The capacitive sensor, which includes two flat discs patterned with conductive material can be packaged in tight spaces.