А. А. Ганеев

730 total citations
51 papers, 584 citations indexed

About

А. А. Ганеев is a scholar working on Spectroscopy, Analytical Chemistry and Biomedical Engineering. According to data from OpenAlex, А. А. Ганеев has authored 51 papers receiving a total of 584 indexed citations (citations by other indexed papers that have themselves been cited), including 21 papers in Spectroscopy, 21 papers in Analytical Chemistry and 17 papers in Biomedical Engineering. Recurrent topics in А. А. Ганеев's work include Analytical chemistry methods development (18 papers), Mass Spectrometry Techniques and Applications (17 papers) and Advanced Chemical Sensor Technologies (13 papers). А. А. Ганеев is often cited by papers focused on Analytical chemistry methods development (18 papers), Mass Spectrometry Techniques and Applications (17 papers) and Advanced Chemical Sensor Technologies (13 papers). А. А. Ганеев collaborates with scholars based in Russia, China and United States. А. А. Ганеев's co-authors include Anna Gubal, Nikolay Solovyev, Н. Б. Иваненко, Л. Н. Москвин, Evgenia Iakovleva, Mika Sillanpää, Evgenii Drobyshev, Oleg V. Glumov, Daxiang Cui and Shengsheng Cui and has published in prestigious journals such as Journal of Cleaner Production, Molecules and Analytica Chimica Acta.

In The Last Decade

А. А. Ганеев

46 papers receiving 566 citations

Peers — A (Enhanced Table)

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

Name	h						Papers	Cites
А. А. Ганеев Russia	15	197	194	181	159	77	51	584
Kin C. Ng United States	15	154 0.8×	190 1.0×	329 1.8×	156 1.0×	91 1.2×	36	682
Gerhard Schaldach Germany	15	73 0.4×	162 0.8×	347 1.9×	131 0.8×	133 1.7×	61	760
Luis Gras Spain	17	124 0.6×	250 1.3×	631 3.5×	73 0.5×	41 0.5×	49	912
Peichao Zheng China	18	133 0.7×	162 0.8×	388 2.1×	203 1.3×	22 0.3×	66	781
Thomas Mayer Germany	13	212 1.1×	317 1.6×	151 0.8×	67 0.4×	36 0.5×	30	552
A. I. Saprykin Russia	13	43 0.2×	113 0.6×	242 1.3×	89 0.6×	60 0.8×	67	484
Vicente Hernandis Spain	18	158 0.8×	412 2.1×	681 3.8×	159 1.0×	73 0.9×	40	983
Qian He China	15	72 0.4×	207 1.1×	352 1.9×	92 0.6×	17 0.2×	53	678
Sabrina Gschwind Switzerland	12	134 0.7×	129 0.7×	298 1.6×	28 0.2×	135 1.8×	14	606
F. Mühlberger Germany	15	287 1.5×	550 2.8×	189 1.0×	42 0.3×	74 1.0×	28	874

Countries citing papers authored by А. А. Ганеев

Since Specialization

Citations

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

Fields of papers citing papers by А. А. Ганеев

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of А. А. Ганеев

This figure shows the co-authorship network connecting the top 25 collaborators of А. А. Ганеев. A scholar is included among the top collaborators of А. А. Ганеев 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 А. А. Ганеев. А. А. Ганеев 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

Zhang, Xueyuan, Yiping Wu, Nguyễn Đức Hòa, et al.. (2024). YSZ-Based In₂O₃/SnO₂ Electrochemical Sensing Device for Highly Selective Tracking Hexanal. IEEE Sensors Journal. 25(2). 3404–3411.

Ганеев, А. А., et al.. (2023). Time-of-flight mass spectrometry with pulsed glow discharge for direct determination of volatile organic compounds in air, nitrogen and argon. Volatile organic compounds ionization processes. Analitika i kontrolʹ. 27(4). 208–218. 1 indexed citations

Liu, Zicheng, Nguyễn Đức Hòa, Nguyễn Văn Hiếu, et al.. (2023). Integrated Smart Gas Tracking Device with Artificially Tailored Selectivity for Real-Time Monitoring Food Freshness. Sensors. 23(19). 8109–8109. 3 indexed citations

Zhang, Yuna, Cuili Xue, Shengsheng Cui, et al.. (2022). Metal-organic frameworks based surface-enhanced Raman spectroscopy technique for ultra-sensitive biomedical trace detection. Nano Research. 16(2). 2968–2979. 46 indexed citations

Gubal, Anna, et al.. (2020). Depth profiling by pulsed glow discharge time-of-flight mass spectrometry with a combined hollow cathode cell. Journal of Analytical Atomic Spectrometry. 35(8). 1587–1596. 7 indexed citations

Gubal, Anna, et al.. (2020). A study of matrix and admixture elements in fluorine‐rich ionic conductors by pulsed glow discharge mass spectrometry. Rapid Communications in Mass Spectrometry. 34(11). e8786–e8786. 4 indexed citations

Gubal, Anna, et al.. (2020). MASS SPECTROMETRY‐BASED TECHNIQUES FOR DIRECT QUANTIFICATION OF HIGH IONIZATION ENERGY ELEMENTS IN SOLID MATERIALS—CHALLENGES AND PERSPECTIVES. Mass Spectrometry Reviews. 40(4). 359–380. 8 indexed citations

Gubal, Anna, Alexey Vasiliev, Антон Барчук, et al.. (2019). Online breath analysis using metal oxide semiconductor sensors (electronic nose) for diagnosis of lung cancer. Journal of Breath Research. 14(1). 16004–16004. 73 indexed citations

Bocharov, Vladimir N., et al.. (2019). Rapid Control of the Octane Number of Gasolines Using an IR Octanometer. Journal of Analytical Chemistry. 74(S2). S9–S16. 1 indexed citations

10.

Gubal, Anna, et al.. (2018). Direct determination of oxygen and other elements in non-conducting crystal materials by pulsed glow discharge time-of-flight mass spectrometry with potassium titanyl phosphate as an example. Vacuum. 153. 248–253. 10 indexed citations

11.

Iakovleva, Evgenia, Philipp Maydannik, Tatiana Ivanova, et al.. (2016). Modified and unmodified low-cost iron-containing solid wastes as adsorbents for efficient removal of As(III) and As(V) from mine water. Journal of Cleaner Production. 133. 1095–1104. 29 indexed citations

12.

Drobyshev, Evgenii, et al.. (2016). Trace element biomonitoring in hair of school children from a polluted area by sector field inductively coupled plasma mass spectrometry. Journal of Trace Elements in Medicine and Biology. 39. 14–20. 42 indexed citations

13.

Ганеев, А. А., et al.. (2015). Use of radiation sources with mercury isotopes for real-time highly sensitive and selective benzene determination in air and natural gas by differential absorption spectrometry with the direct Zeeman effect. Analytica Chimica Acta. 887. 172–178. 2 indexed citations

14.

Иваненко, Н. Б., et al.. (2012). Application of Zeeman Graphite Furnace Atomic Absorption Spectrometry with High-Frequency Modulation Polarization for the Direct Determination of Aluminum, Beryllium, Cadmium, Chromium, Mercury, Manganese, Nickel, Lead, and Thallium in Human Blood. Archives of Environmental Contamination and Toxicology. 63(3). 299–308. 27 indexed citations

15.

Ганеев, А. А., et al.. (2011). Lumas-30 time-of-flight mass spectrometer with pulsed glow discharge for direct determination of nitrogen in steel. Journal of Analytical Chemistry. 66(14). 1411–1416. 9 indexed citations

16.

Иваненко, Н. Б., А. А. Ганеев, Nikolay Solovyev, & Л. Н. Москвин. (2011). Determination of trace elements in biological fluids. Journal of Analytical Chemistry. 66(9). 784–799. 42 indexed citations

17.

Ганеев, А. А., et al.. (2006). Direct and rapid determination of elements in the ambient air and in human exhalation using the electrostatic precipitation of aerosols in the graphite atomizer of a zeeman spectrometer. Journal of Analytical Chemistry. 61(1). 84–91. 1 indexed citations

18.

Ганеев, А. А., et al.. (2005). Surface Modification of Microchip Input Reservoirs for Pressure-induced Sample Injection into Microreactors. Analytical Sciences. 21(4). 349–350. 1 indexed citations

19.

Иваненко, Н. Б., et al.. (2005). Direct and rapid analysis of ambient air and exhaled air via electrostatic precipitation of aerosols in an atomizer furnace and Zeeman spectrometry. Analytical and Bioanalytical Chemistry. 381(3). 713–720. 2 indexed citations

20.

Ганеев, А. А., et al.. (1975). Interference method for observing the dissociation of copper halide molecules in a pulsed discharge. Optics and Spectroscopy. 39(4). 444. 5 indexed citations

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