LIGHTWAVE LOGIC COM STK NPV (LWLG)

0.58
0.01 1.71
OTC
Prev Close 0.59
Open 0.57
Day Low/High 0.56 / 0.59
52 Wk Low/High 0.43 / 0.87
Volume 64.92K
Exchange OTC
Shares Outstanding 67.56B
Market Cap 38.51M
Div & Yield N.A. (N.A)

Lightwave Logic Designing Cost Effective High-Speed Silicon Photonics Solutions Enabled By Its P(2)IC™ (Polymer Photonics Integrated Circuit) Platform

High-Density Photonic Circuitry On Silicon, Enabled By Thin Film Polymer Coatings Increases Data Rates and Reduces Cost

Moore's Law Redux: Polymer Photonics

Lightwave Logic to Bring the Moore's Law Concept to the Photonics Industry

Lightwave Logic Successfully Achieves Modulation In All-Organic Polymer Ridge Waveguide Modulator Prototype

Company Accomplishes Important Milestone Toward Ultimate Commercialization of Polymer Photonics

Lightwave Logic Successfully Guides Laser Light Through All-Organic, Passive Polymer Ridge Waveguides

Company Clears Demonstration Hurdle and Will Now Conduct Passive Loss Tests and Begin Development of Modulators

Dr. Michael Lebby To Present The Value Of Lightwave Logic's Polymer Photonic Solution At A Major Photonics Industry Conference March 1, 2016

The PIC International Conference (Photonics Integrated Circuit) is a Global International Event Being Held in Brussels, Belgium to Create a Nexus Between Developers and Users of Photonic Integrated Circuits.

Lightwave Logic Successfully Fabricates Organic Polymer Ridge Waveguide Structures

Also, Company's EO Polymers Surpass 2,000 Hours of Photochemical Stability, Moving Polymer Photonics One Step Closer to Commercialization

Lightwave Logic Announces The Appointment Of Optoelectronics Industry Leader, Michael Lebby, Ph.D. To Its Board Of Directors

Dr. Lebby to Oversee Lightwave's Photonic Device Development Effort as a Member of its Operations Committee

Lightwave Logic's Advanced Organic Electro-Optic Polymers Surpass 2,000 Hours Of Thermal Aging At 110 Degrees Celsius With Little To No Degradation Of Material Properties

Additionally, the Company's Proprietary Organic Electro-Optic Polymers Already Exceed 500 Hours Of Photochemical Testing With No Effect On Chemical Structures

Lightwave Logic Announces Completion Of Its Class 100 Clean Room

Company Brings Prototype Development and Testing In-House

Lightwave Logic's Organic Polymer Thermal Aging Testing Indicates Decades Of Operational Performance

Company Initiates Benchmark Testing on Organic Polymer Coated Chips Versus Silicon Photonic Devices

Lightwave Logic Announces Preliminary Durability Test Results That Exceed Industry Standards

Virtually No Observed Degradation of Electro Optical Activity Demonstrates Commercial Viability For Certain Multi-Billion Dollar Markets

Lightwave Logic Begins The Manufacture Of A Multi Integrated Nanophotonic Transceiver (MINT) Prototype To Address Explosive Data Center Growth

Company to Incorporate Proprietary High Power Nonlinear Organic Polymers (NLOPs) to Increase Performance at Reduced Cost

Lightwave Logic Opens New Corporate Headquarters In Colorado

Advanced Fabrication Facility under Construction

Lightwave Logic Electro-Optic Polymer To Be Used In Development Of An Advanced DoD Application

Powerful New Perkinamine(TM) Electro-Optic Polymer System to Enable Photonics for LADAR System

SeeThruEquity Initiates Research Coverage On Lightwave Logic, Inc.

SeeThruEquity, a leading New York City based independent equity research and corporate access firm focused on smallcap and microcap public companies, today announced that it has initiated coverage on Lightwave Logic,...

Lightwave Logic Successfully Demonstrates Operating Silicon Organic Hybrid (SOH) Prototype Modulator

Device Achieves Greater Electro-Optical Activity and Lower Drive Voltage than Industry Standard Legacy Inorganic Modulators

Lightwave Logic To Present At The Annual SeeThruEquity Conference

The Conference to be Held in New York City on June 4, 2013