Sentence examples for methodology reported here from inspiring English sources

The composite materials modeling methodology reported here may be used for material microstructure sensitive design in material by design strategies.

The methodology reported here holds promise for the development of multifunctional hybrid sol-gel coatings for mild steel substrates with interesting anticorrosion and antifouling activities in saline.

The RAFT methodology reported here for the preparation of hyperbranched polymers is simpler than those reported previously using a divinyl cross-linker and provides good control over the hyperbranched polymers without the formation of insoluble gels.

The methodology reported here opens up many possibilities for biosensing applications and disease diagnosis.

Finally, given the challenge for reproducibly building functional structures at the nanometer scale, the streamlined methodology reported here may serve as a complementary approach to understand and to gain control of the assembly of biologically based nanoparticles with or without genetic manipulation of phage capsid.

The methodology reported here will allow rapid transformation of the much larger collection of existing tyrosyl-tRNA synthetases that were already evolved for the incorporation of an array of over 50 unnatural amino acids into proteins in Escherichia coli into proteins in mammalian cells.

Numerical simulations using an Euler Euler methodology are reported here across a wide range of operating conditions, where we discuss model assumptions and model validation.

The methodology and observations reported here could be relevant for the design and construction of high-efficiency light-emitting diodes, platform fabrication of biological and environmental monitoring, and high-contrast imaging.

However, there are major differences between the previous methodology and the one reported here, including the use of qPCR rather than endpoint PCR.

Based on the results reported here, this established methodology may under represent the true diversity of analogously constructed yeast libraries by 4-fold or more.

The analysis methodology we report here opens the possibility to design better surfaces for future tissue engineering applications.