Matthew J. Beck

846 citations

42 papers · 660 indexed · h-index 15

Co-authors: T. John Balk Mark Asta Qunfei Zhou Bernard Vancil Axel van de Walle Oleg E. Shklyaev Michael J. Miksis Francesco Montalenti
Topics: Advancements in Battery Materials (9 papers)Semiconductor materials and devices (8 papers)Catalytic Processes in Materials Science (7 papers)
Cited by: Atomic and Molecular Physics, and Optics Catalysis Electrical and Electronic Engineering
Journals: Physical Review Letters Nano Letters Physical Review B
Partner nations: United States Italy Austria

In The Last Decade

Matthew J. Beck

37 papers receiving 640 citations

Peers

Replace Douglas G. Van Campen with:

Douglas G. Van Campen United States

Yuriy Halahovets Slovakia

Peter W. Jacobs United States

Daniel J. Kelly United Kingdom

Kazutoshi Inoue Japan

Muriel Bouttemy France

P. D. Tepesch United States

J.C. Dupuy France

Nicolaas Stolwijk Germany

Chaitanya Gadre United States

Matthew J. Beck relative to Douglas G. Van Campen United States Douglas G. Van Campen's profile →

Citations per field

00.5×2×2.8×

Douglas G. Van Campen · 1×

×0.9 380/432

EEE

×0.7 301/418

MC

×1.3 281/211

AMPO

×1.8 132/74

BE

×1.5 55/37

CATAL

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Countries citing papers authored by Matthew J. Beck

Since Specialization

Citations

This map shows the geographic impact of Matthew J. Beck's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Matthew J. Beck with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Matthew J. Beck more than expected).

Fields of papers citing papers by Matthew J. Beck

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Matthew J. Beck. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Matthew J. Beck. The network helps show where Matthew J. Beck may publish in the future.

Co-authorship network of co-authors of Matthew J. Beck

This figure shows the co-authorship network connecting the top 25 collaborators of Matthew J. Beck. A scholar is included among the top collaborators of Matthew J. Beck based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Matthew J. Beck. Matthew J. Beck is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	Crystallographic faceting of bulk tungsten surfaces observed during in situ heating in an environmental scanning electron microscope 2024 ·Materials Characterization ·Huanhuan Bai,N. Briot,Matthew J. Beck,T. John Balk	0
2	Stochastic mesoscale mechanical modeling of metallic foams 2024 ·Mathematics and Mechanics of Solids ·(unknown),(unknown),(unknown),(unknown),Alexandre Martin,Matthew J. Beck	1
3	Superconducting VLSI Logic Cell Library Using DC-Powered Clockless Dynamic SFQ Gates and ASIC-Style Layout Template 2023 ·IEEE Transactions on Applied Superconductivity ·S.V. Rylov,Matthew J. Beck,Kevin Tien,John F. Bulzacchelli,(unknown),(unknown),Daniel Friedman	4
4	Scandium wetting of tungsten surfaces in “scandate” thermionic cathodes 2022 ·Surfaces and Interfaces ·(unknown),(unknown),Matthew J. Beck	1
5	Sc-Containing (Scandate) Thermionic Cathodes: Mechanisms for Sc Enhancement of Emission 2022 ·IEEE Transactions on Electron Devices ·(unknown),Qunfei Zhou,Xiaotao Liu,T. John Balk,Matthew J. Beck	14
6	Deducing surface chemistry and annealing conditions from observed nanoparticle shapes: A study of scandate cathodes 2022 ·Applied Surface Science ·(unknown),T. John Balk,Matthew J. Beck	3
7	Sc-Containing (Scandate) Thermionic Cathodes: Fabrication, Microstructure, and Emission Performance 2022 ·IEEE Transactions on Electron Devices ·(unknown),Qunfei Zhou,Xiaotao Liu,T. John Balk,Matthew J. Beck	15
8	Characterization of the Materials, Phases and Morphology Typical of High-Performance Scandate Cathodes 2022 ·T. John Balk,(unknown),Huanhuan Bai,Xiaotao Liu,(unknown),Matthew J. Beck,Bernard Vancil	1
9	Stochastic approach for determining properties of randomly structured materials: Effects of network connectivity 2021 ·Acta Materialia ·(unknown),(unknown),(unknown),(unknown),(unknown),(unknown),T. John Balk,Matthew J. Beck	7
10	Desorption from Hot Scandate Cathodes: Effects on Vacuum Device Interior Surfaces after Long-Term Operation 2020 ·Materials ·(unknown),T. John Balk,Matthew J. Beck	6
11	The characterization of purified citrate-coated cerium oxide nanoparticles prepared via hydrothermal synthesis 2020 ·Applied Surface Science ·(unknown),Robert A. Yokel,Matthew J. Beck,(unknown),(unknown),Eric J. Munson,(unknown),Eric A. Grulke	41
12	Superconducting Qubit Control with Single Flux Quantum Pulses in A Multichip Module: Part II Qubit and Quasiparticle Measurement 2019 ·Bulletin of the American Physical Society ·(unknown),(unknown),(unknown),(unknown),JJ Nelson,C. H. Liu,(unknown),Matthew J. Beck,Alex F. Kirichenko,Daniel Yohannes,I. V. Vernik,(unknown),(unknown),(unknown),R. McDermott,B. L. T. Plourde	0
13	Comprehensive DFT study of hydroxyl coverage on titania surfaces 2019 ·Applied Surface Science ·(unknown),Matthew J. Beck	17
14	Near-Surface Material Phases and Microstructure of Scandate Cathodes 2019 ·Materials ·(unknown),Bernard Vancil,Matthew J. Beck,T. John Balk	11
15	Frontiers in Thermionic Cathode Research 2018 ·IEEE Transactions on Electron Devices ·David Kirkwood,Steven J. Gross,T. John Balk,Matthew J. Beck,John H. Booske,(unknown),Ryan Jacobs,Martin E. Kordesch,(unknown),Dane Morgan,William D. Palmer,Bernard Vancil,J. E. Yater	66
16	Materials characterization of surface phases in scandate cathodes 2018 ·T. John Balk,Xiaotao Liu,Qunfei Zhou,(unknown),Matthew J. Beck,Bernard Vancil	1
17	Origin and Reduction of 1=f Magnetic Flux Noise in Superconducting Devices 2016 ·eScholarship (California Digital Library) ·P. Senthil Kumar,David P. Pappas,R. McDermott,J. W. Freeland,Clare C. Yu,Matthew J. Beck,Hui Wang,Ruqian Wu	5
18	Effects of stress on lithium transport in amorphous silicon electrodes for lithium-ion batteries 2015 ·Nano Energy ·Jie Pan,Qinglin Zhang,Juchuan Li,Matthew J. Beck,Xingcheng Xiao,Yang‐Tse Cheng	70
19	Formation of Ge Nanoripples on Vicinal Si (1110): From Stranski-Krastanow Seeds to a Perfectly Faceted Wetting Layer 2012 ·Physical Review Letters ·Gang Chen,(unknown),Dan Matei,G. Springholz,(unknown),Matthew J. Beck,Francesco Montalenti,Leo Miglio	40
20	Role of Strain-Dependent Surface Energies inGe/Si(100)Island Formation 2005 ·Physical Review Letters ·Oleg E. Shklyaev,Matthew J. Beck,Mark Asta,Michael J. Miksis,Peter W. Voorhees	67

About Matthew J. Beck

Matthew J. Beck is a scholar working on Catalysis, Metals and Alloys and General Materials Science, having authored 42 papers that have together received 660 indexed citations. Recurring topics across this work include Advancements in Battery Materials (9 papers), Semiconductor materials and devices (8 papers) and Catalytic Processes in Materials Science (7 papers). The work is most often cited by research in Atomic and Molecular Physics, and Optics (281 citations), Catalysis (55 citations) and Electrical and Electronic Engineering (380 citations). Matthew J. Beck has collaborated with scholars based in United States, Italy and Austria. Frequent co-authors include T. John Balk, Mark Asta, Qunfei Zhou, Bernard Vancil, Axel van de Walle, Oleg E. Shklyaev, Michael J. Miksis, Francesco Montalenti, Peter W. Voorhees and Qinglin Zhang. Their work appears in journals such as Physical Review Letters, Nano Letters and Physical Review B.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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