Lightwave Logic Inc (LWLG)

[prototype_101]

As I have told the shareholders before, we needed to demonstrate that our materials would actually work in a device and now it is time to optimize the material performance for these revolutionary devices. It is important to consider that this is a starting point and unlike inorganic compounds, organic nonlinear optical polymers can be chemically altered to improve performance since their molecular structure allows manipulation and offers a pathway to better-and-better results."

http://finance.yahoo.com/news/lightwave-logic-nonlinear-optical-materials-153000031.html

also, this sounded pretty good to me already:

The tested SOH chip had a 1-millimeter square footprint, enabling the possibility of sophisticated integrated optical circuits on a single silicon substrate. In addition, the waveguide structure was approximately 1/20 the length of a typical inorganic-based silicon photonics modulator waveguide.

With the combination of proprietary Lightwave Logic electro-optic polymer material and the extremely high optical field concentration in the slot waveguide modulator, the test modulators demonstrated less than 2.2 volts to operate. Initial data rates exceeded 30-35 Gb/sec in the telecom, 1550 nanometer frequency band. This is equivalent to four, 10Gb/sec, inorganic, lithium niobate modulators that would require approximately 12-16 volts to move the same amount of information. Lightwave's material also operates in the 1310 nanometer frequency band, which is suitable for data communications applications.