Stanford researchers developed an electrochemical reactor process that combines electrodialysis and membrane stripping, reduces the chemical inputs needed and expands recovered product portfolio to alkaline ammonia (for cleaning products) in ratios customized to a user's speci
Stanford researchers have developed an Electrodialysis and Nitrate Reduction Process (EDNR) that produces high-purity ammonia from agricultural runoff.
Stanford researchers have developed an "electrocatalyst-in-a-box" that extracts wastewater nitrate and converts it into ammonia. Nitrogen pollution threatens water security and human health, and demand for ammonia continues to grow.
Non-small-cell lung cancer (NSCLC) accounts for approximately 85% of all lung cancer cases, making it the leading cause of cancer-related deaths globally. Post-surgical recurrence and treatment resistance are the main causes of cancer-related mortality.
The wireless spectrum is increasingly fragmented due to the growing proliferation of unlicensed wireless devices and piecemeal licensed spectrum allocations.
Engineers in Prof. Sachin Katti's laboratory have developed a 3 X 3 in-band full duplex MIMO radio, that can simultaneously transmit and receive on the same channel using standard WiFi 802.11n PHY for 20 Mhz bandwidth.
Wireless spectrum is increasingly fragmented due to the growing proliferation of unlicensed wireless devices and piecemeal licensed spectrum allocations.
Engineers in Prof. Sachin Katti's laboratory have developed a full duplex wireless system designed to double throughput by simultaneously transmitting and receiving signal on a standard single inband antenna.
Stanford researchers have developed an oral formula and method to reduce the risk of developing food allergies. This patented formula can reduce the risk of food allergy in different age groups when given as part of a normal daily diet.
Oral mucositis (OM) is a painful side effect of chemoradiotherapy, especially in children and adolescents, with a high incidence rate of over 20%-40% and up to 90% in high risk patients.
Stanford researchers have developed a mouth-cooling device that prevents or reduces the degree of oral mucositis (OM), a painful side effect of chemotherapy, radiotherapy, autoimmune conditions, and infections.
Stanford researchers have developed a new method for producing high-quality lead-germanium-selenide (PbGeSe) thin films with improved optical performance and uniformity.
Stanford scientists have developed a frequency-based power control method that enables RF amplifiers to double their output power within 500 nanoseconds using only passive components.