Daniel Autrey

1.2k total citations
22 papers, 359 citations indexed

About

Daniel Autrey is a scholar working on Materials Chemistry, Atomic and Molecular Physics, and Optics and Spectroscopy. According to data from OpenAlex, Daniel Autrey has authored 22 papers receiving a total of 359 indexed citations (citations by other indexed papers that have themselves been cited), including 13 papers in Materials Chemistry, 8 papers in Atomic and Molecular Physics, and Optics and 8 papers in Spectroscopy. Recurrent topics in Daniel Autrey's work include MXene and MAX Phase Materials (7 papers), Advanced Chemical Physics Studies (6 papers) and 2D Materials and Applications (5 papers). Daniel Autrey is often cited by papers focused on MXene and MAX Phase Materials (7 papers), Advanced Chemical Physics Studies (6 papers) and 2D Materials and Applications (5 papers). Daniel Autrey collaborates with scholars based in United States, Japan and Estonia. Daniel Autrey's co-authors include Jaan Laane, Zane Arp, Stacy A. Overman, George J. Thomas, Jaebum Choo, Bhoj Gautam, Shubo Han, Francisco Lagunas, Robert F. Klie and Takeshi Torita and has published in prestigious journals such as The Journal of Chemical Physics, Biochemistry and Langmuir.

In The Last Decade

Daniel Autrey

20 papers receiving 353 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Daniel Autrey United States 11 143 91 83 68 62 22 359
Agnese Marcelli Italy 14 208 1.5× 48 0.5× 79 1.0× 129 1.9× 96 1.5× 24 429
Nam‐Hee Kim South Korea 9 142 1.0× 48 0.5× 129 1.6× 25 0.4× 36 0.6× 20 326
Kazuhiko Fujiwara Japan 12 128 0.9× 71 0.8× 107 1.3× 137 2.0× 32 0.5× 30 428
Vincent A. Spata United States 9 210 1.5× 30 0.3× 99 1.2× 127 1.9× 74 1.2× 9 426
Fabrice Gardebien France 11 174 1.2× 39 0.4× 56 0.7× 91 1.3× 38 0.6× 20 462
Daniel J. Aschaffenburg United States 9 137 1.0× 50 0.5× 130 1.6× 33 0.5× 35 0.6× 11 370
Pim van der Asdonk Netherlands 9 126 0.9× 91 1.0× 38 0.5× 65 1.0× 46 0.7× 12 355
Oleksandr Yushchenko Ukraine 11 233 1.6× 38 0.4× 31 0.4× 27 0.4× 83 1.3× 32 351
Juntian Wu China 13 162 1.1× 30 0.3× 84 1.0× 60 0.9× 67 1.1× 26 457
M. Brustolon Italy 11 129 0.9× 41 0.5× 35 0.4× 33 0.5× 52 0.8× 31 321

Countries citing papers authored by Daniel Autrey

Since Specialization
Citations

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

Fields of papers citing papers by Daniel Autrey

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Daniel Autrey

This figure shows the co-authorship network connecting the top 25 collaborators of Daniel Autrey. A scholar is included among the top collaborators of Daniel Autrey 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 Daniel Autrey. Daniel Autrey is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Han, Shubo, et al.. (2026). Confinement of quasi-atomic structures in Ti 2 N and Ti 3 N 2 MXene electrides. Journal of Physics and Chemistry of Solids. 212. 113534–113534.
2.
Balabhadra, Sangeetha, et al.. (2024). Structural and Morphological Characteristics of Rare Earth Element-based MAX Phase and MXene. Microscopy and Microanalysis. 30(Supplement_1). 1 indexed citations
3.
Gautam, Bhoj, et al.. (2024). Electrochemical Amyloid β Immunosensor Based on Ti3C2Tx MXene Nanosheets. Microscopy and Microanalysis. 30(Supplement_1). 1 indexed citations
4.
De, Shrabani, et al.. (2024). Intercalation of Polyacrylonitrile Nanoparticles in Ti3C2Tx MXene Layers for Improved Supercapacitance. ACS Applied Materials & Interfaces. 16(47). 64784–64796. 11 indexed citations
5.
Han, Shubo, et al.. (2022). Ti3C2TX MXene Hole Transport Layer for Polymer Non-Fullerene Solar Cells. Microscopy and Microanalysis. 28(S1). 926–927. 3 indexed citations
6.
Badr, Hussein O., Francisco Lagunas, Daniel Autrey, et al.. (2022). On the structure of one-dimensional TiO2 lepidocrocite. Matter. 6(1). 128–141. 32 indexed citations
7.
Gautam, Bhoj, et al.. (2022). Effect of Etching Method on the Morphology and Stability of Ti2CTx MXene. Microscopy and Microanalysis. 28(S1). 2800–2801. 4 indexed citations
8.
Han, Shubo, et al.. (2021). Tuning the Magnetic Properties of Two-Dimensional MXenes by Chemical Etching. Materials. 14(3). 694–694. 67 indexed citations
9.
Autrey, Daniel, et al.. (2017). Electron Probe Microanalysis of Electrospun Nd2O3 Nanofibers Doped with Ce/Zn. Microscopy and Microanalysis. 23(S1). 1770–1771. 1 indexed citations
10.
Autrey, Daniel, et al.. (2004). Raman signature of the non-hydrogen-bonded tryptophan side chain in proteins: experimental and ab initio spectra of 3-methylindole in the gas phase. Journal of Molecular Structure. 735-736. 271–278. 12 indexed citations
11.
Gilles, Emily J., et al.. (2004). Ultraviolet cavity ringdown spectra of 2-cyclohexen-1-one and its potential energy function and structure for the electronic ground state. Canadian Journal of Chemistry. 82(6). 867–872. 6 indexed citations
12.
Autrey, Daniel, et al.. (2003). Vibrational spectra and DFT calculations of tetralin and 1,4-benzodioxan. Journal of Molecular Structure. 661-662. 23–32. 25 indexed citations
13.
Laane, Jaan, et al.. (2003). Raman spectroscopy of vapors at elevated temperatures. Journal of Molecular Structure. 650(1-3). 57–68. 18 indexed citations
14.
Sangster, T. C., Daniel Autrey, J.J. Barnard, et al.. (2003). Current status of the recirculator project at LLNL. Proceedings of the 1999 Particle Accelerator Conference (Cat. No.99CH36366). 5. 3248–3250.
15.
16.
Autrey, Daniel, et al.. (2003). Vibrational Spectra, Ab Initio Calculations, and Conformations of Bicyclo[3.3.0]oct-1,5-ene. The Journal of Physical Chemistry A. 108(3). 403–408. 12 indexed citations
17.
Autrey, Daniel, Jaebum Choo, & Jaan Laane. (2001). Spectroscopic Determination of the Ring-Twisting Potential Energy Function of 1,3-Cyclohexadiene and Comparison with Ab Initio Calculations. The Journal of Physical Chemistry A. 105(45). 10230–10236. 35 indexed citations
18.
Arp, Zane, Daniel Autrey, Jaan Laane, Stacy A. Overman, & George J. Thomas. (2001). Tyrosine Raman Signatures of the Filamentous Virus Ff Are Diagnostic of Non-Hydrogen-Bonded Phenoxyls:  Demonstration by Raman and Infrared Spectroscopy of p-Cresol Vapor,. Biochemistry. 40(8). 2522–2529. 81 indexed citations
19.
Autrey, Daniel & Jaan Laane. (2001). Far-Infrared Spectra, ab Initio Calculations, and the Ring-Puckering Potential Energy Function of 2,3-Dihydrofuran. The Journal of Physical Chemistry A. 105(28). 6894–6899. 25 indexed citations
20.
Autrey, Daniel, et al.. (2000). Far-infrared spectrum and ab initio calculations for vinylene carbonate. Journal of Molecular Structure. 550-551. 505–510. 1 indexed citations

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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