A team of Stanford engineers have developed a low-cost, solution-processed method to fabricate a flexible nanowire mesh that can be used in transparent electrodes, as a replacement for metal oxides (such as ITO, indium tin oxide).
This technology consists of a collection of 48 ALDH cDNA and genomic clones for various ALDH isozymes from Prof. Daria Mochly-RosenÍs lab. DNA fragments of various ALDH genomic and cDNA isozymes were obtained by either PCR, direct DNA synthesis, restriction enzyme digests.
Stanford University researchers have developed a microelectromechanical ring resonator structure that oscillates in an elongating/compressing or breathing mode.
In high-speed serial links, most receivers use decision feedback equalization to deal with channel loss. While this corrects for the effect of channel dispersion, it does not take into account the dispersed energy in making the decision about each bit.
This is a cell line, AC6.21, from the murine cell line of 6C3Ag^hi phenotype. The cell line supports the proliferation and differentiation of pre-B cells from their hematopoietic precursors in vitro.
Researcher in Prof. Lei Xing's laboratory have developed an improved method for Monitor Unit ("MU") calculations in Intensity Modulated Radiation Therapy (IMRT).
The purpose of this invention is to provide a simple and efficient method for Monitor Unit ("MU") calculation for intensity modulated radiation therapy (IMRT).
Stanford researchers have invented a novel method and device for separating light of differing wavelengths. This method uses a very simple and compact multilayer dielectric structure having high angular dispersion at certain wavelengths and angles of incidence.