Darren P. Broom

2.8k citations

24 papers · 1.4k indexed · h-index 16

Materials Chemistry top 5%
Inorganic Chemistry top 2%
Mechanical Engineering top 5%
Energy Engineering and Power Technology top 1%
Catalysis top 5%

Co-authors: C. J. Webb Michael Hirscher George E. Froudakis Pantelis N. Trikalitis George S. Fanourgakis K. Mark Thomas Jian‐Hui Lan Zhonghua Xiang
Topics: Hydrogen Storage and Materials (13 papers)Metal-Organic Frameworks: Synthesis and Applications (10 papers)Membrane Separation and Gas Transport (7 papers)
Cited by: Energy Engineering and Power Technology Inorganic Chemistry Catalysis
Journals: Energy & Environmental Science Langmuir The Journal of Physical Chemistry C
Partner nations: United Kingdom United States Germany

In The Last Decade

Darren P. Broom

24 papers receiving 1.4k citations

Peers

Replace Annemieke W. C. van den Berg with:

Annemieke W. C. van den Berg Netherlands

Farida Darkrim France

Felix Baitalow Germany

J.D. Speight United Kingdom

James Wegrzyn United States

Yongmin Kim South Korea

Drew A. Sheppard Australia

George Psofogiannakis United States

Weifang Luo United States

A. Jeremy Kropf United States

Darren P. Broom relative to Annemieke W. C. van den Berg Netherlands Annemieke W. C. van den Berg's profile →

Citations per field

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Annemieke W. C. van den Berg · 1×

×1.4 1k/767

MC

×1.0 505/508

IC

×1.4 359/248

ME

×1.8 245/137

EEPT

×0.7 231/333

CATAL

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Countries citing papers authored by Darren P. Broom

Since Specialization

Citations

This map shows the geographic impact of Darren P. Broom'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 Darren P. Broom with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Darren P. Broom more than expected).

Fields of papers citing papers by Darren P. Broom

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Darren P. Broom. 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 Darren P. Broom. The network helps show where Darren P. Broom may publish in the future.

Co-authorship network of co-authors of Darren P. Broom

This figure shows the co-authorship network connecting the top 25 collaborators of Darren P. Broom. A scholar is included among the top collaborators of Darren P. Broom 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 Darren P. Broom. Darren P. Broom 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	Validated methane adsorption isotherms up to 7.5 MPa on a reference Na-Y zeolite at near ambient temperatures 2024 ·Adsorption ·(unknown),(unknown),Darren P. Broom,(unknown),Michael J. Benham,Stefano Brandani,Enzo Mangano	2
2	Challenges in characterizing adsorbents for gas storage and separation 2023 ·Adsorption ·Darren P. Broom	10
3	Fundamentals of hydrogen storage in nanoporous materials 2022 ·Repository@Nottingham (University of Nottingham) ·Linda Zhang,Mark D. Allendorf,Rafael Balderas‐Xicohténcatl,Darren P. Broom,George S. Fanourgakis,George E. Froudakis,Thomas Gennett,Katherine E. Hurst,Sanliang Ling,Chiara Milanese,Philip A. Parilla,Daniele Pontiroli,Mauro Riccò,Sarah Shulda,Vitalie Stavila,Theodore Steriotis,C. J. Webb,Matthew Witman,Michael Hirscher	59
4	Separation of Azeotropic Hydrofluorocarbon Refrigerant Mixtures: Thermodynamic and Kinetic Modeling for Binary Adsorption of HFC-32 and HFC-125 on Zeolite 5A 2022 ·Langmuir ·(unknown),Darren P. Broom,Mark Roper,Michael J. Benham,D. E. Cox,Mark B. Shiflett	15
5	Integral Mass Balance (IMB) Method for Measuring Multicomponent Gas Adsorption Equilibria in Nanoporous Materials 2020 ·Industrial & Engineering Chemistry Research ·Darren P. Broom,Orhan Talu,Michael J. Benham	16
6	Concepts for improving hydrogen storage in nanoporous materials 2019 ·International Journal of Hydrogen Energy ·Darren P. Broom,C. J. Webb,George S. Fanourgakis,George E. Froudakis,Pantelis N. Trikalitis,Michael Hirscher	204
7	Pitfalls in the characterisation of the hydrogen sorption properties of materials 2017 ·International Journal of Hydrogen Energy ·Darren P. Broom,C. J. Webb	37
8	Irreproducibility in hydrogen storage material research 2016 ·Energy & Environmental Science ·Darren P. Broom,(unknown)	105
9	Outlook and challenges for hydrogen storage in nanoporous materials 2016 ·Applied Physics A ·Darren P. Broom,C. J. Webb,Katherine E. Hurst,P. A. Parilla,(unknown),Craig M. Brown,Renju Zacharia,Emmanuel Tylianakis,Emmanuel Klontzas,George E. Froudakis,Theodore Steriotis,Pantelis N. Trikalitis,Donald L. Anton,B.J. Hardy,David Tamburello,Claudio Corgnale,Bart A. van Hassel,Daniel Cossement,Richard Chahine,Michael Hirscher	152
10	Gas adsorption by nanoporous materials: Future applications and experimental challenges 2013 ·MRS Bulletin ·Darren P. Broom,K. Mark Thomas	69
11	Characterisation of porous hydrogen storage materials: carbons, zeolites, MOFs and PIMs 2011 ·Faraday Discussions ·(unknown),Allan Walton,Darren P. Broom,David Book	80
12	Hydrogen Storage Materials 2011 ·Green energy and technology ·Darren P. Broom	169
13	Hydrogen Storage Materials: The Characterisation of Their Storage Properties 2011 ·DIAL (Catholic University of Leuven) ·Darren P. Broom	74
14	Multiscale simulation and modelling of adsorptive processes for energy gas storage and carbon dioxide capture in porous coordination frameworks 2010 ·Energy & Environmental Science ·Zhonghua Xiang,Dapeng Cao,Jian‐Hui Lan,Wenchuan Wang,Darren P. Broom	133
15	HYDROGEN SORPTION MEASUREMENTS ON POTENTIAL STORAGE MATERIALS 2008 ·Joint Research Centre (European Commission) ·Darren P. Broom	1
16	Accuracy in hydrogen sorption measurements 2007 ·Journal of Alloys and Compounds ·Darren P. Broom,Pietro Moretto	21
17	The accuracy of hydrogen sorption measurements on potential storage materials 2007 ·International Journal of Hydrogen Energy ·Darren P. Broom	110
18	Monte Carlo simulation of quasielastic neutron scattering from localised and long-range hydrogen motion in C15 Laves phase intermetallic compounds 2003 ·Chemical Physics ·Daniel J. Bull,Darren P. Broom,D.K. Ross	12
19	Magnetic properties of the YCo3–H system 2003 ·Journal of Alloys and Compounds ·(unknown),Darren P. Broom,Peter A. Georgiev,D.K. Ross	8
20	Observations of twinning in YBa₂Cu₃O_{6 x}, 0 <x< 1, at high temperatures 2002 ·Journal of Physics Condensed Matter ·Bahram Khoshnevisan,D.K. Ross,Darren P. Broom,(unknown)	3

About Darren P. Broom

Darren P. Broom is a scholar working on Energy Engineering and Power Technology, Inorganic Chemistry and Process Chemistry and Technology, having authored 24 papers that have together received 1.4k indexed citations. Recurring topics across this work include Hydrogen Storage and Materials (13 papers), Metal-Organic Frameworks: Synthesis and Applications (10 papers) and Membrane Separation and Gas Transport (7 papers). The work is most often cited by research in Energy Engineering and Power Technology (245 citations), Inorganic Chemistry (505 citations) and Catalysis (231 citations). Darren P. Broom has collaborated with scholars based in United Kingdom, United States and Germany. Frequent co-authors include C. J. Webb, Michael Hirscher, George E. Froudakis, Pantelis N. Trikalitis, George S. Fanourgakis, K. Mark Thomas, Jian‐Hui Lan, Zhonghua Xiang, Wenchuan Wang and Dapeng Cao. Their work appears in journals such as Energy & Environmental Science, Langmuir and The Journal of Physical Chemistry C.

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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