Lutz Geelhaar

7.3k citations

227 papers · 5.9k indexed · h-index 42

Biomedical Engineering top 0.5%
Condensed Matter Physics top 0.2%
Materials Chemistry top 2%
Electrical and Electronic Engineering top 2%
Atomic and Molecular Physics, and Optics top 1%

Co-authors: H. Riechert O. Brandt Henning Riechert A. Trampert Vincent Consonni Caroline Chèze M. Ramsteiner Steffen Breuer
Topics: GaN-based semiconductor devices and materials (127 papers)Nanowire Synthesis and Applications (115 papers)Semiconductor Quantum Structures and Devices (69 papers)
Cited by: Condensed Matter Physics Electronic, Optical and Magnetic Materials Atomic and Molecular Physics, and Optics
Journals: Journal of the American Chemical Society Physical Review Letters Advanced Materials
Partner nations: Germany France United Kingdom

In The Last Decade

Lutz Geelhaar

223 papers receiving 5.8k citations

Peers

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Maria Tchernycheva France

U. Jahn Germany

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Countries citing papers authored by Lutz Geelhaar

Since Specialization

Citations

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

Fields of papers citing papers by Lutz Geelhaar

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Lutz Geelhaar. 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 Lutz Geelhaar. The network helps show where Lutz Geelhaar may publish in the future.

Co-authorship network of co-authors of Lutz Geelhaar

This figure shows the co-authorship network connecting the top 25 collaborators of Lutz Geelhaar. A scholar is included among the top collaborators of Lutz Geelhaar 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 Lutz Geelhaar. Lutz Geelhaar 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	ScN/GaN(1100): A New Platform for the Epitaxy of Twin-Free Metal–Semiconductor Heterostructures 2024 ·Nano Letters ·(unknown),A. Trampert,(unknown),(unknown),Jonas Lähnemann,Vladimir M. Kaganer,Lutz Geelhaar,O. Brandt,Thomas Auzelle	2
2	A route for the top-down fabrication of ordered ultrathin GaN nanowires 2023 ·Nanotechnology ·(unknown),Vladimir M. Kaganer,(unknown),Stefan Meister,Abbès Tahraoui,Lutz Geelhaar,O. Brandt,Thomas Auzelle	6
3	Growth kinetics and substrate stability during high-temperature molecular beam epitaxy of AlN nanowires 2023 ·Nanotechnology ·(unknown),Marcos Gómez Ruiz,(unknown),Jonas Lähnemann,A. Trampert,Lutz Geelhaar,O. Brandt,Thomas Auzelle	4
4	Bismuth surfactant-enhanced III-As epitaxy on GaAs(111)A 2023 ·Semiconductor Science and Technology ·(unknown),Jesús Herránz,Lutz Geelhaar,Ryan B. Lewis	5
5	Lattice parameters of ScxAl1−xN layers grown on GaN(0001) by plasma-assisted molecular beam epitaxy 2023 ·Applied Physics Letters ·Duc V. Dinh,Jonas Lähnemann,Lutz Geelhaar,O. Brandt	32
6	Density control of GaN nanowires at the wafer scale using self-assembled SiN_x patches on sputtered TiN(111) 2023 ·Nanotechnology ·Thomas Auzelle,(unknown),(unknown),M. Ramsteiner,A. Trampert,Lutz Geelhaar,O. Brandt	3
7	Sequential directional deposition of one-sided (In,Ga)N shells on GaN nanowires by molecular beam epitaxy 2023 ·APL Materials ·(unknown),Jonas Lähnemann,Guanhui Gao,Sergio Fernández‐Garrido,O. Brandt,Lutz Geelhaar	0
8	Growth mechanisms in molecular beam epitaxy for GaN-(In,Ga)N core–shell nanowires emitting in the green spectral range 2023 ·Nanotechnology ·(unknown),Jonas Lähnemann,O. Brandt,Lutz Geelhaar	2
9	In situ x-ray analysis of misfit strain and curvature of bent polytypic GaAs–In _x Ga_1−xAs core–shell nanowires 2021 ·Nanotechnology ·(unknown),Ludwig Feigl,(unknown),(unknown),(unknown),(unknown),(unknown),(unknown),Dmitri Novikov,Sonia Francoual,Lutz Geelhaar,Tilo Baumbach,U. Pietsch	5
10	Spatially-resolved luminescence and crystal structure of single core–shell nanowires measured in the as-grown geometry 2020 ·Nanotechnology ·(unknown),Jonas Lähnemann,Steven Leake,(unknown),(unknown),(unknown),Florian Bertram,Ryan B. Lewis,(unknown),Tobias U. Schülli,Lutz Geelhaar,U. Pietsch	4
11	Comprehensive analysis of the self-assembled formation of GaN nanowires on amorphous Al _x O _y : in situ quadrupole mass spectrometry studies 2019 ·Nanotechnology ·Marta Sobańska,Z. R. Żytkiewicz,Gabriele Calabrese,Lutz Geelhaar,Sergio Fernández‐Garrido	11
12	Bismuth-surfactant-induced growth and structure of InAs/GaAs(110) quantum dots 2019 ·Semiconductor Science and Technology ·Ryan B. Lewis,A. Trampert,E. Luna,(unknown),Carsten Pfüller,Lutz Geelhaar	6
13	Exciton recombination at crystal-phase quantum rings in GaAs/InxGa1−xAs core/multishell nanowires 2016 ·Applied Physics Letters ·Pierre Corfdir,(unknown),Oliver Marquardt,(unknown),J. Grandal,Emmanouil Dimakis,A. Trampert,Lutz Geelhaar,O. Brandt,R. T. Phillips	10
14	分子ビームエピタキシーによるSi(111)基板上へのGaAsナノワイヤのGa支援成長のための成長図 2016 ·Nanotechnology ·(unknown),(unknown),(unknown),Lutz Geelhaar	2
15	Growth map for Ga-assisted growth of GaAs nanowires on Si(111) substrates by molecular beam epitaxy 2016 ·Nanotechnology ·F. Bastiman,(unknown),Claudio Somaschini,Lutz Geelhaar	33
16	Self-assembled growth of GaN nanowires on amorphous Al_xO_y: from nucleation to the formation of dense nanowire ensembles 2016 ·Nanotechnology ·Marta Sobańska,Sergio Fernández‐Garrido,Z. R. Żytkiewicz,(unknown),Sylwia Gierałtowska,O. Brandt,Lutz Geelhaar	21
17	Compatibility of the selective area growth of GaN nanowires on AlN-buffered Si substrates with the operation of light emitting diodes 2015 ·Nanotechnology ·(unknown),Abbès Tahraoui,Sergio Fernández‐Garrido,O. Brandt,A. Trampert,Lutz Geelhaar,H. Riechert	28
18	Efficient room-temperature nuclear spin hyperpolarization of a defect atom in a semiconductor 2013 ·Nature Communications ·Yuttapoom Puttisong,Xingjun Wang,I. A. Buyanova,Lutz Geelhaar,H. Riechert,Aaron J. Ptak,C. W. Tu,Weimin Chen	28
19	Surface-induced effects in GaN nanowires 2011 ·Journal of materials research/Pratt's guide to venture capital sources ·Raffaella Calarco,T. Stoïca,O. Brandt,Lutz Geelhaar	108
20	Compositional Correlation and Anticorrelation in Quaternary Alloys: Competition Between Bulk Thermodynamics and Surface Kinetics 2007 ·Physical Review Letters ·M. Albrecht,Hazem Abu‐Farsakh,T. Remmele,Lutz Geelhaar,H. Riechert,Jörg Neugebauer	14

About Lutz Geelhaar

Lutz Geelhaar is a scholar working on Condensed Matter Physics, Structural Biology and Electronic, Optical and Magnetic Materials, having authored 227 papers that have together received 5.9k indexed citations. Recurring topics across this work include GaN-based semiconductor devices and materials (127 papers), Nanowire Synthesis and Applications (115 papers) and Semiconductor Quantum Structures and Devices (69 papers). The work is most often cited by research in Condensed Matter Physics (2.9k citations), Electronic, Optical and Magnetic Materials (1.6k citations) and Atomic and Molecular Physics, and Optics (2.2k citations). Lutz Geelhaar has collaborated with scholars based in Germany, France and United Kingdom. Frequent co-authors include H. Riechert, O. Brandt, Henning Riechert, A. Trampert, Vincent Consonni, Caroline Chèze, M. Ramsteiner, Steffen Breuer, Carsten Pfüller and Sergio Fernández‐Garrido. Their work appears in journals such as Journal of the American Chemical Society, Physical Review Letters and Advanced Materials.

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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