1. Synthesis of molecular arrays with nonlinear optical properties: second-harmonic generation by covalently functionalized glassy polymers

2. Dalton, L. Role of Delocalized Pi Electrons in Nonlinear Optical and Electrical Conductivity Properties of Polymers. Proceedings of SPIE, Volume 682, Molecular and Polymeric Optoelectronic Materials: Fundamentals and Applications. Edited by: Kharian, G. pp.77–44. L. Dalton, “Electroactive Polymers: Consequences of Electron Delocalization,” to be published inNonlinear Optical and Electroactive Polymers, P. N. Prasad and D. R. Ulrich, Eds., Plenum Press, New York, 1988; J. Thompson, C. Young, Y. P. Yu, R. Montgomery, P. Bryson and L. Dalton, “Electroactive Polymers: Consequences of Electron Delocalization for Polymer Synthesis, Processing, Electrical, Magnetic, and Nonlinear Optical Properties,” DARPA/DSO-AFOSR/NC Program Review, Feb. 10–13, 1987, Leesburg, Virginia

3. Etemad, S., Baker, G. L. and Jaye, D. Linear and Nonlinear Optical Properties of Polyacetylene. Proceedings of SPIE, Volume 682, Molecular and Polymeric Materials: Fundamentals and Applications. Edited by: Khanarian, G. pp.44–49.

4. Theoretical studies on polyaniline

5. Dalton, L. 1988. Design of Polymers with Semiconductor, NLO and Structural Properties, to be presented at SPIE O-E LASE '88, Innovative Science and Technology Symposium, Conference 878, Multifunctional Materials, Session 3—Optical Glass and Macromolecular Materials. January10–171988, Los Angeles. preliminary communication, AFOSR contract F49620–87-C-0100