Kimberly Sung scite author profile

We describe the development of solar water-splitting cells comprising earth-abundant elements that operate in near-neutral pH conditions, both with and without connecting wires. The cells consist of a triple junction, amorphous silicon photovoltaic interfaced to hydrogen- and oxygen-evolving catalysts made from an alloy of earth-abundant metals and a cobalt|borate catalyst, respectively. The devices described here carry out the solar-driven water-splitting reaction at efficiencies of 4.7% for a wired configuration and 2.5% for a wireless configuration when illuminated with 1 sun (100 milliwatts per square centimeter) of air mass 1.5 simulated sunlight. Fuel-forming catalysts interfaced with light-harvesting semiconductors afford a pathway to direct solar-to-fuels conversion that captures many of the basic functional elements of a leaf.

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The Role of Ligands in Determining the Exciton Relaxation Dynamics in Semiconductor Quantum Dots

Peterson

Cass

Harris

et al. 2014

Annu. Rev. Phys. Chem.

203

280

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This article reviews the mechanisms through which molecules adsorbed to the surfaces of semiconductor nanocrystals, quantum dots (QDs), influence the pathways for and dynamics of intra- and interband exciton relaxation in these nanostructures. In many cases, the surface chemistry of the QDs determines the competition between Auger relaxation and electronic-to-vibrational energy transfer in the intraband cooling of hot carriers, and between electron or hole-trapping processes and radiative recombination in relaxation of band-edge excitons. The latter competition determines the photoluminescence quantum yield of the nanocrystals, which is predictable through a set of mostly phenomenological models that link the surface coverage of ligands with specific chemical properties to the rate constants for nonradiative exciton decay.

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Graphene's Role in Emerging Trends of Capacitive Energy Storage

Wang

Muni

Strauß

et al. 2021

Small

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Technological breakthroughs in energy storage are being driven by the development of next‐generation supercapacitors with favorable features besides high‐power density and cycling stability. In this innovation, graphene and its derived materials play an active role. Here, the research status of graphene supercapacitors is analyzed. Recent progress is outlined in graphene assembly, exfoliation, and processing techniques. In addition, electrochemical and electrical attributes that are increasingly valued in next‐generation supercapacitors are highlighted along with a summary of the latest research addressing chemical modification of graphene and its derivatives for future supercapacitors. The challenges and solutions discussed in the review hopefully will shed light on the commercialization of graphene and a broader genre of 2D materials in energy storage applications.

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Erratum to: Search for heavy Higgs bosons decaying to a top quark pair in proton-proton collisions at $$ \sqrt{s} $$ = 13 TeV

Sirunyan

Tumasyan

Adam

et al. 2022

J. High Energ. Phys.

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High Power Graphene Micro-supercapacitors

Kaner

Wang

El‐Kady

et al. 2020

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Kimberly Sung

Wireless Solar Water Splitting Using Silicon-Based Semiconductors and Earth-Abundant Catalysts

The Role of Ligands in Determining the Exciton Relaxation Dynamics in Semiconductor Quantum Dots

Graphene's Role in Emerging Trends of Capacitive Energy Storage

Erratum to: Search for heavy Higgs bosons decaying to a top quark pair in proton-proton collisions at $$ \sqrt{s} $$ = 13 TeV

High Power Graphene Micro-supercapacitors

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