DFT-based calculation of vibrational sum frequency generation spectral features of crystalline β-sheets in silk: Polarization and azimuth angle dependences.

Sum frequency generation (SFG) necessitates both noncentrosymmetry and coherence over multiple length scales. These requirements make vibrational SFG spectroscopy capable of probing structural information of noncentrosymmetric organic crystals interspersed in polymeric matrices and their three-dimensional spatial distributions within the matrices without spectral interferences from the amorphous components. However, this analysis is not as straightforward as simple vibrational spectroscopy or scattering experiments; it requires knowing the molecular hyperpolarizability of SFG-active vibrational modes and their interplay within the coherence length.

Orientation Distribution of Crystalline β-Sheet Domains in Silk Fiber Studied with Vibrational Sum Frequency Generation Spectroscopy.

Silk fibers have good biocompatibility and mechanical properties, which make them attractive in biomaterial applications as well as textile industries. It is believed that the superior mechanical property is associated with the crystalline β-sheet structure in the fiber; but a deeper understanding of the structure-property relationship is still needed for full exploitation of its physical properties. Especially, accurate information on hydrogen-bonding interactions within β-sheet domains at the nanoscale and their spatial distributions at the mesoscale are critically needed.

A modified squeeze equation for predicting the filling ratio of nanoimprint lithography.

A numerical method using the modified squeeze model is proposed in this paper in order to overcome the limitation of the established squeeze equation and obtain filling ratios for nanoimprint lithography (NIL). Because the imprinting velocity is overestimated when the ratio of indenter width to polymer thickness is close to unity, the modified equation is critical. For verification, the numerical results are compared with the experimental data according to the various stamp geometries and pressure variation rates, for which a maximum difference of 10% is indicated.

Analytical Evaluation of Portable and Simple FREND Fluorescent Immunoassay for Rapid Quantification of Thyroid-Stimulating Hormone and Free Thyroxine.

Background: The FREND™ thyroid stimulating hormone (TSH) and free thyroxine (FT4) assays are newly developed rapid quantitative immunoassays utilizing antibody-conjugated fluorescent nanoparticles in a microfluidic flow system. The FREND system is a simple and portable fluorescence reader with rapid turnaround time (4 - 10 minutes).

Methods: The analytical sensitivity, precision, and linearity were evaluated.

Nanoimprint lithography with a focused laser beam for the fabrication of nanopatterned microchannel molds.

We present a process based on nanoimprint lithography for the fabrication of a microchannel mold having nanopatterns formed at the bottoms of its microchannels. A focused laser beam selectively cures the resist in the micrometer scale during nanoimprint lithography. Nanopatterns within the microchannels may be used to control microfluidic behavior.