Joanna Grabowska

520 citations

22 papers · 398 indexed · h-index 12

Mechanics of Materials top 10%
Civil and Structural Engineering top 10%
Environmental Chemistry top 10%
Atmospheric Science
Mechanical Engineering

Co-authors: Marek Krawczuk Magdalena Palacz Jan Zielkiewicz Iván M. Zerón Carlos Vega Jesús Algaba José Manuel Mı́guez S. Blazquez
Topics: nanoparticles nucleation surface interactions (8 papers)Advanced Thermodynamics and Statistical Mechanics (4 papers)Spectroscopy and Quantum Chemical Studies (4 papers)
Cited by: Environmental Chemistry Mechanics of Materials Civil and Structural Engineering
Journals: The Journal of Chemical Physics The Journal of Physical Chemistry B Physical Chemistry Chemical Physics
Partner nations: Poland Spain United Kingdom

In The Last Decade

Joanna Grabowska

21 papers receiving 381 citations

Peers

Replace Abhishek Joshi with:

Abhishek Joshi India

Ricardo Gutfraind Canada

Vasileios K. Michalis Greece

Radim Mareš Czechia

Yuanfei Bi United States

Hai Hoang France

G. Doherty Australia

Keisuke Seto Japan

Romain Vermorel France

A. Döppenschmidt Germany

Joanna Grabowska relative to Abhishek Joshi India Abhishek Joshi's profile →

Citations per field

00.5×2×4×6×7.8×

Abhishek Joshi · 1×

×1.2 168/146

MM

×0.9 125/138

CSE

×1.0 88/90

EC

×7.8 78/10

AS

×0.6 61/104

ME

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Countries citing papers authored by Joanna Grabowska

Since Specialization

Citations

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

Fields of papers citing papers by Joanna Grabowska

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Joanna Grabowska

This figure shows the co-authorship network connecting the top 25 collaborators of Joanna Grabowska. A scholar is included among the top collaborators of Joanna Grabowska 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 Joanna Grabowska. Joanna Grabowska 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	Homogeneous nucleation rate of carbon dioxide hydrate formation under experimental condition from Seeding simulations 2025 ·The Journal of Chemical Physics ·Iván M. Zerón,Jesús Algaba,José Manuel Mı́guez,Joanna Grabowska,S. Blazquez,Eduardo Sanz,Carlos Vega,Felipe J. Blas	3
2	Long-range, water-mediated interaction between a moderately active antifreeze protein molecule and the surface of ice 2024 ·The Journal of Chemical Physics ·Joanna Grabowska,(unknown),Jan Zielkiewicz	0
3	Solubility of carbon dioxide in water: Some useful results for hydrate nucleation 2023 ·The Journal of Chemical Physics ·Jesús Algaba,Iván M. Zerón,José Manuel Mı́guez,Joanna Grabowska,S. Blazquez,Eduardo Sanz,Carlos Vega,Felipe J. Blas	22
4	Homogeneous nucleation rate of methane hydrate formation under experimental conditions from seeding simulations 2023 ·The Journal of Chemical Physics ·Joanna Grabowska,S. Blazquez,Eduardo Sanz,Eva G. Noya,Iván M. Zerón,Jesús Algaba,José Manuel Mı́guez,Felipe J. Blas,Carlos Vega	22
5	Solubility of Methane in Water: Some Useful Results for Hydrate Nucleation 2022 ·The Journal of Physical Chemistry B ·Joanna Grabowska,S. Blazquez,Eduardo Sanz,Iván M. Zerón,Jesús Algaba,José Manuel Mı́guez,Felipe J. Blas,Carlos Vega	46
6	Revealing the Frank–Evans “Iceberg” Structures within the Solvation Layer around Hydrophobic Solutes 2021 ·The Journal of Physical Chemistry B ·Joanna Grabowska,(unknown),Jan Zielkiewicz	29
7	Interfacial water controls the process of adsorption of hyperactive antifreeze proteins onto the ice surface 2020 ·Journal of Molecular Liquids ·Joanna Grabowska,(unknown),Jan Zielkiewicz	10
8	Why is the cubic structure preferred in newly formed ice? 2019 ·Physical Chemistry Chemical Physics ·Joanna Grabowska	7
9	Role of the Solvation Water in Remote Interactions of Hyperactive Antifreeze Proteins with the Surface of Ice 2019 ·The Journal of Physical Chemistry B ·Joanna Grabowska,(unknown),Jan Zielkiewicz	6
10	Molecular dynamics study on the role of solvation water in the adsorption of hyperactive AFP to the ice surface 2018 ·Physical Chemistry Chemical Physics ·Joanna Grabowska,(unknown),Jan Zielkiewicz	14
11	Structure of solvation water around the active and inactive regions of a type III antifreeze protein and its mutants of lowered activity 2016 ·The Journal of Chemical Physics ·Joanna Grabowska,(unknown),Jan Zielkiewicz	13
12	Electrochemical formation and properties of two-component films of transition metal complexes and C60 or C70 2008 ·Journal of Solid State Electrochemistry ·(unknown),Joanna Grabowska,(unknown),Krzysztof Winkler	16
13	Damage identification by wavelet analysis 2008 ·Mechanical Systems and Signal Processing ·Joanna Grabowska,Magdalena Palacz,Marek Krawczuk	76
14	Wavelet Analysis for Damage Identification in Composite Structures 2007 ·Key engineering materials ·Joanna Grabowska,Magdalena Palacz,Marek Krawczuk,Wiesław Ostachowicz,Irina Trendafilova,Emil Manoach,Matthew P. Cartmell	6
15	Longitudinal wave propagation. Part II—Analysis of crack influence 2006 ·Journal of Sound and Vibration ·Marek Krawczuk,Joanna Grabowska,Magdalena Palacz	21
16	Longitudinal wave propagation. Part I—Comparison of rod theories 2006 ·Journal of Sound and Vibration ·Marek Krawczuk,Joanna Grabowska,Magdalena Palacz	51
17	Identification of Discontinuities in Composite Rods and Beams Based on Lamb Wave Propagation 2005 ·Key engineering materials ·Joanna Grabowska,Marek Krawczuk	3
18	FLOTATION OF Co(II), Sr(II), AND Cs(I) CATIONS WITH PROTON-IONIZABLE LARIAT ETHERS 2001 ·Separation Science and Technology ·Witold A. Charewicz,Joanna Grabowska,Richard A. Bartsch	19
19	Energy transfer between finite-sized interacting molecules in a one-dimensional system 1995 ·Chemical Physics ·Joanna Grabowska,(unknown)	9
20	Investigations of the excitation energy transport mechanism in donor-acceptor systems 1991 ·Journal of Fluorescence ·C. Bojarski,Joanna Grabowska,Leszek Kułak,Józef Kuśba	11

About Joanna Grabowska

Joanna Grabowska is a scholar working on Environmental Chemistry, Atmospheric Science and Statistical and Nonlinear Physics, having authored 22 papers that have together received 398 indexed citations. Recurring topics across this work include nanoparticles nucleation surface interactions (8 papers), Advanced Thermodynamics and Statistical Mechanics (4 papers) and Spectroscopy and Quantum Chemical Studies (4 papers). The work is most often cited by research in Environmental Chemistry (88 citations), Mechanics of Materials (168 citations) and Civil and Structural Engineering (125 citations). Joanna Grabowska has collaborated with scholars based in Poland, Spain and United Kingdom. Frequent co-authors include Marek Krawczuk, Magdalena Palacz, Jan Zielkiewicz, Iván M. Zerón, Carlos Vega, Jesús Algaba, José Manuel Mı́guez, S. Blazquez, Felipe J. Blas and Eduardo Sanz. Their work appears in journals such as The Journal of Chemical Physics, The Journal of Physical Chemistry B and Physical Chemistry Chemical Physics.

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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