Justin C Johnson

Overview

Explore the profile of Justin C Johnson including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 74

Citations 1080

Followers 0

Related Specialties

Chemistry

Biotechnology

Biophysics

Top 10 Co-Authors

Arthur J Nozik

Matthew C Beard

John E Anthony

Josef Michl

Dylan H Arias

Niels H Damrauer

Obadiah G Reid

Jeffrey L Blackburn

Karl J Thorley

Joseph M Luther

Published In

J Phys Chem Lett

ACS Nano

J Am Chem Soc

Nano Lett

J Phys Chem A

Affiliations

Soon will be listed here.

Recent Articles

Interplay of coulomb and exciton-phonon coupling controls singlet fission dynamics in two pentacene polymorphs

Arias D, Cohen G, Damrauer N, Refaely-Abramson S, Johnson J

J Chem Phys . 2024 Sep; 161(9). PMID: 39225519

Pentacene is an important model organic semiconductor in both the singlet exciton fission (SF) and organic electronics communities. We have investigated the effect of changing crystal structure on the SF...

Surface Loading Dictates Triplet Production via Singlet Fission in Anthradithiophene Sensitized TiO Films

Gish M, Snell K, Thorley K, Anthony J, Johnson J

J Phys Chem C Nanomater Interfaces . 2024 Aug; 128(33):13944-13951. PMID: 39193258

Singlet fission, the process of transforming a singlet excited state into two lower energy triplet excited states, is a promising strategy for improving the efficiency of dye-sensitized solar cells. The...

Revealing the Singlet Fission Mechanism for a Silane-Bridged Thienotetracene Dimer

Lin L, Dill R, Thorley K, Parkin S, Anthony J, Johnson J, et al.

J Phys Chem A . 2024 May; 128(20):3982-3992. PMID: 38717589

Tetraceno[2,3-]thiophene is regarded as a strong candidate for singlet fission-based solar cell applications due to its mixed characteristics of tetracene and pentacene that balance exothermicity and triplet energy. An electronically...

Tetracene Diacid Aggregates for Directing Energy Flow toward Triplet Pairs

Pompetti N, Smyser K, Feingold B, Owens R, Lama B, Sharma S, et al.

J Am Chem Soc . 2024 Apr; PMID: 38606884

A comprehensive investigation of the solution-phase photophysics of tetracene bis-carboxylic acid [ ()] and its related methyl ester [ ()], a non-hydrogen-bonding counterpart, reveals the role of the carboxylic acid...

Ultrafast Charge Transfer Cascade in a Mixed-Dimensionality Nanoscale Trilayer

Myers A, Li Z, Gish M, Earley J, Johnson J, Hermosilla-Palacios M, et al.

ACS Nano . 2024 Mar; 18(11):8190-8198. PMID: 38465641

Innovation in optoelectronic semiconductor devices is driven by a fundamental understanding of how to move charges and/or excitons (electron-hole pairs) in specified directions for doing useful work, e.g., for making...

Molecular Control of Triplet-Pair Spin Polarization and Its Optoelectronic Magnetic Resonance Probes

Reid O, Johnson J, Eaves J, Damrauer N, Anthony J

Acc Chem Res . 2023 Dec; 57(1):59-69. PMID: 38103045

ConspectusPreparing and manipulating pure magnetic states in molecular systems are the key initial requirements for harnessing the power of synthetic chemistry to drive practical quantum sensing and computing technologies. One...

Optically Addressing Exciton Spin and Pseudospin in Nanomaterials for Spintronics Applications

Lubert-Perquel D, Acharya S, Johnson J

ACS Appl Opt Mater . 2023 Dec; 1(11):1742-1760. PMID: 38037653

Oriented exciton spins that can be generated and manipulated optically are of interest for a range of applications, including spintronics, quantum information science, and neuromorphic computing architectures. Although materials that...

Multiexciton quintet state populations in a rigid pyrene-bridged parallel tetracene dimer

Lin L, Smith T, Ai Q, Rugg B, Risko C, Anthony J, et al.

Chem Sci . 2023 Oct; 14(41):11554-11565. PMID: 37886089

The multiexciton quintet state, TT, generated as a singlet fission intermediate in pairs of molecular chromophores, is a promising candidate as a qubit or qudit in future quantum information science...

Controlling Electronic Coupling of Acene Chromophores on Quantum Dot Surfaces through Variable-Concentration Ligand Exchange

Martinez M, Nolen M, Pompetti N, Richter L, Farberow C, Johnson J, et al.

ACS Nano . 2023 Jul; 17(15):14916-14929. PMID: 37494884

Controlling the binding of functional organic molecules on quantum dot (QD) surfaces and the resulting ligand/QD interfacial structure determines the resulting organic-inorganic hybrid behavior. In this study, we vary the...

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Mediating Photochemical Reaction Rates at Lewis Acidic Rare Earths by Selective Energy Loss to 4f-Electron States

Ruoff K, Gish M, Song E, Douair I, Pandey P, Steger M, et al.

J Am Chem Soc . 2023 Jul; 145(30):16374-16382. PMID: 37467432

Manifesting chemical differences in individual rare earth (RE) element complexes is challenging due to the similar sizes of the tripositive cations and the corelike 4f shell. We disclose a new...