2010 - Fellow of the American Association for the Advancement of Science (AAAS)
2009 - Fellow of American Physical Society (APS) Citation For seminal contributions to the understanding, development and application of organic nonlinear optical materials
2006 - OSA Fellows For innovative contributions to the understanding and application of the nonlinear optical properties of organic materials.
Molecule, Two-photon absorption, Chromophore, Absorption and Molecular physics are his primary areas of study. His Molecule study incorporates themes from Conjugated system, Dipole, Fluorescence, Photochemistry and Absorption spectroscopy. His Two-photon absorption study integrates concerns from other disciplines, such as Absorption band and Excitation.
His studies deal with areas such as Nanotechnology, Polymerization, Two-photon excitation microscopy, Optoelectronics and Laser as well as Absorption. The study incorporates disciplines such as Microfabrication and Laser power scaling in addition to Two-photon excitation microscopy. His research combines Multiphoton lithography and Optoelectronics.
His scientific interests lie mostly in Optoelectronics, Photochemistry, Absorption, Optics and Molecule. His Optoelectronics research incorporates themes from Nonlinear optics, Polymer and Microfabrication. Joseph W. Perry has included themes like Polymerization and 3D optical data storage in his Microfabrication study.
His studies in Photochemistry integrate themes in fields like Excited state, Quantum yield, Fluorescence and Acceptor. The various areas that Joseph W. Perry examines in his Absorption study include Wavelength, Laser, Two-photon excitation microscopy and Photon. The concepts of his Molecule study are interwoven with issues in Conjugated system, Molecular physics, Crystallography and Spectral line.
Joseph W. Perry focuses on Photochemistry, Optoelectronics, Optics, Absorption and Two-photon absorption. His research integrates issues of Quantum yield, Acceptor, Perylene and Absorption spectroscopy in his study of Photochemistry. His Optoelectronics study frequently draws parallels with other fields, such as Signal processing.
His Absorption study combines topics in areas such as Spectral line, Wavelength, Chromophore and Excited state. He combines subjects such as Molecule, Polarizability and Laser with his study of Chromophore. His study in Two-photon absorption is interdisciplinary in nature, drawing from both Electronic structure and Femtosecond.
Joseph W. Perry mainly focuses on Photochemistry, Absorption, Optoelectronics, Acceptor and Two-photon absorption. His Photochemistry study combines topics from a wide range of disciplines, such as Tyrosine, Perylene and Absorption spectroscopy. His Absorption research includes elements of Silicon, Laser, Femtosecond, Moment and Atomic physics.
His work carried out in the field of Optoelectronics brings together such families of science as Dye laser, Substrate and Signal processing. His study on Acceptor also encompasses disciplines like
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Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication
Brian H. Cumpston;Sundaravel P. Ananthavel;Stephen Barlow;Daniel L. Dyer.
Design of Organic Molecules with Large Two-Photon Absorption Cross Sections
Marius Albota;David Beljonne;Jean-Luc Bredas;Jeffrey E. Ehrlich.
Structure−Property Relationships for Two-Photon Absorbing Chromophores: Bis-Donor Diphenylpolyene and Bis(styryl)benzene Derivatives
Mariacristina Rumi;Jeffrey E. Ehrlich;Ahmed A. Heikal;Joseph W. Perry.
Journal of the American Chemical Society (2000)
Organic Optical Limiter with a Strong Nonlinear Absorptive Response
J. W. Perry;K. Mansour;I.-Y. S. Lee;X.-L. Wu.
Two-photon absorption and broadband optical limiting with bis-donor stilbenes.
J. E. Ehrlich;X. L. Wu;I.-Y. S. Lee;Z.-Y. Hu.
Optics Letters (1997)
An Efficient Two-Photon-Generated Photoacid Applied to Positive-Tone 3D Microfabrication
Wenhui Zhou;Stephen M. Kuebler;Kevin L. Braun;Tianyue Yu.
Synthesis of Organic Salts with Large Second-Order Optical Nonlinearities
Seth R. Marder;Joseph W. Perry;William P. Schaefer.
High Energy Density Nanocomposites Based on Surface-Modified BaTiO3 and a Ferroelectric Polymer
Philseok Kim;Natalie M Doss;John P Tillotson;Peter J Hotchkiss.
ACS Nano (2009)
Large First Hyperpolarizabilities in Push-Pull Polyenes by Tuning of the Bond Length Alternation and Aromaticity
Seth R. Marder;Lap-Tak Cheng;Bruce G. Tiemann;Andrienne C. Friedli.
Phosphonic Acid-Modified Barium Titanate Polymer Nanocomposites with High Permittivity and Dielectric Strength
Philseok Kim;Simon C. Jones;Peter J. Hotchkiss;Joshua N. Haddock.
Advanced Materials (2007)
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