Seth R. Marder scite author profile

Organic and printed electronics technologies require conductors with a work function that is sufficiently low to facilitate the transport of electrons in and out of various optoelectronic devices. We show that surface modifiers based on polymers containing simple aliphatic amine groups substantially reduce the work function of conductors including metals, transparent conductive metal oxides, conducting polymers, and graphene. The reduction arises from physisorption of the neutral polymer, which turns the modified conductors into efficient electron-selective electrodes in organic optoelectronic devices. These polymer surface modifiers are processed in air from solution, providing an appealing alternative to chemically reactive low-work function metals. Their use can pave the way to simplified manufacturing of low-cost and large-area organic electronic technologies.

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Non-fullerene acceptors for organic solar cells

Yan

et al. 2018

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Design of Organic Molecules with Large Two-Photon Absorption Cross Sections

Albotǎ

Beljonne

Brédas

et al. 1998

Science

2,150

1,490

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A strategy for the design of molecules with large two-photon absorption cross sections, delta, was developed, on the basis of the concept that symmetric charge transfer, from the ends of a conjugated system to the middle, or vice versa, upon excitation is correlated to enhanced values of delta. Synthesized bis(styryl)benzene derivatives with donor-pi-donor, donor-acceptor-donor, and acceptor-donor-acceptor structural motifs exhibit exceptionally large values of delta, up to about 400 times that of trans-stilbene. Quantum chemical calculations performed on these molecules indicate that substantial symmetric charge redistribution occurs upon excitation and provide delta values in good agreement with experimental values. The combination of large delta and high fluorescence quantum yield or triplet yield exhibited by molecules developed here offers potential for unprecedented brightness in two-photon fluorescent imaging or enhanced photosensitivity in two-photon sensitization, respectively.

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Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication

Cumpston

Ananthavel

Barlow

et al. 1999

Nature

2,133

1,277

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Seth R. Marder

A Universal Method to Produce Low–Work Function Electrodes for Organic Electronics

Non-fullerene acceptors for organic solar cells

Design of Organic Molecules with Large Two-Photon Absorption Cross Sections

Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication

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