Organic electro-optics and optical rectification: from mesoscale to nanoscale hybrid devices and chip-scale integration of electronics and photonics
The performance of electro-optic devices based on organic second order NLO materials has
been improved by orders of magnitude through theory-guided improvement in the electro …
been improved by orders of magnitude through theory-guided improvement in the electro …
Perspective: Nanophotonic electro-optics enabling THz bandwidths, exceptional modulation and energy efficiencies, and compact device footprints
The growth of integrated photonics has driven the need for efficient, high-bandwidth
electrical-to-optical (EO) signal conversion over a broad range of frequencies (MHz–THz) …
electrical-to-optical (EO) signal conversion over a broad range of frequencies (MHz–THz) …
Molecular engineering of structurally diverse dendrimers with large electro-optic activities
To boost electro-optic (EO) performance, a series of multichromophore dendrimers have
been developed based on higher hyperpolarizability (CLD-type) chromophore cores that …
been developed based on higher hyperpolarizability (CLD-type) chromophore cores that …
New paradigms in materials and devices for hybrid electro-optics and optical rectification
We review recent transformative advances in materials design, synthesis, and processing as
well as device engineering for the utilization of organic materials in hybrid electro-optic (EO) …
well as device engineering for the utilization of organic materials in hybrid electro-optic (EO) …
Organic electro-optic materials combining extraordinary nonlinearity with exceptional stability to enable commercial applications
SR Hammond, KM O'Malley, H Xu… - … and Devices XXIV, 2022 - spiedigitallibrary.org
Hybrid organic electro-optic (OEO) modulators consist of a layer of ordered organic
chromophores confined between layers of metals or semiconductors, enabling optical fields …
chromophores confined between layers of metals or semiconductors, enabling optical fields …
Birefringence, dimensionality, and surface influences on organic hybrid electro-optic performance
Hybrid organic electro-optic (OEO) devices consist of a layer of ordered organic
chromophores confined between layers of metals or semiconductors, enabling optical fields …
chromophores confined between layers of metals or semiconductors, enabling optical fields …
Unraveling excitonic effects for the first hyperpolarizabilities of chromophore aggregates
AA Kocherzhenko, SV Shedge… - The Journal of …, 2019 - ACS Publications
Excitonic interactions often significantly affect the optoelectronic properties of molecular
materials. However, their role in determining the nonlinear optical response of organic …
materials. However, their role in determining the nonlinear optical response of organic …
Plasmonic organic hybrid electro-optic modulators as a platform for process optimization towards extraordinary nonlinearity and exceptional stability enabling …
SR Hammond, KM O'Malley, DL Elder… - … and Devices XXV, 2023 - spiedigitallibrary.org
Hybrid organic electro-optic (OEO) modulators consist of aligned OEO chromophores
confined in a metal or semiconductor slot waveguide, enabling optical fields to be tightly …
confined in a metal or semiconductor slot waveguide, enabling optical fields to be tightly …
Electrodynamics Modeling of Plasmonic-Organic Hybrid Waveguides
M Michel - 2020 - scholarship.claremont.edu
Optical fibers have multiple advantages over conventional electrical connections, such as
lower energy losses and higher bandwidth. To use optics for chip-to-chip communication …
lower energy losses and higher bandwidth. To use optics for chip-to-chip communication …