L. Kris Kostanski

513 total citations
18 papers, 404 citations indexed

About

L. Kris Kostanski is a scholar working on Organic Chemistry, Biomedical Engineering and Spectroscopy. According to data from OpenAlex, L. Kris Kostanski has authored 18 papers receiving a total of 404 indexed citations (citations by other indexed papers that have themselves been cited), including 10 papers in Organic Chemistry, 6 papers in Biomedical Engineering and 5 papers in Spectroscopy. Recurrent topics in L. Kris Kostanski's work include Advanced Polymer Synthesis and Characterization (6 papers), Analytical Chemistry and Chromatography (4 papers) and Photopolymerization techniques and applications (4 papers). L. Kris Kostanski is often cited by papers focused on Advanced Polymer Synthesis and Characterization (6 papers), Analytical Chemistry and Chromatography (4 papers) and Photopolymerization techniques and applications (4 papers). L. Kris Kostanski collaborates with scholars based in Canada, United States and Poland. L. Kris Kostanski's co-authors include A. E. Hamielec, Carlos D. M. Filipe, John F. MacGregor, Raja Ghosh, Young‐Min Kim, Robert Pelton, Howard A. Ketelson, David Meadows, Marília Brinati Malta and H. Krump and has published in prestigious journals such as Langmuir, Journal of Colloid and Interface Science and Journal of Membrane Science.

In The Last Decade

L. Kris Kostanski

17 papers receiving 396 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
L. Kris Kostanski Canada 11 133 114 76 58 57 18 404
Víctor Miranda Chile 12 105 0.8× 74 0.6× 54 0.7× 53 0.9× 59 1.0× 16 432
A. Périchaud France 12 115 0.9× 77 0.7× 99 1.3× 22 0.4× 64 1.1× 41 422
Jean‐François Tranchant France 15 148 1.1× 162 1.4× 67 0.9× 57 1.0× 127 2.2× 19 611
Irina Pucić Croatia 12 133 1.0× 75 0.7× 136 1.8× 48 0.8× 82 1.4× 35 519
Yu. D. Semchikov Russia 11 248 1.9× 40 0.4× 106 1.4× 34 0.6× 65 1.1× 79 390
R. Kniewske Germany 8 176 1.3× 117 1.0× 118 1.6× 34 0.6× 46 0.8× 8 539
Márcio Temtem Portugal 15 52 0.4× 267 2.3× 115 1.5× 108 1.9× 125 2.2× 22 574
Thomas Aberle Germany 12 202 1.5× 72 0.6× 103 1.4× 26 0.4× 113 2.0× 16 637
Daniel W. Lester United Kingdom 15 250 1.9× 78 0.7× 69 0.9× 26 0.4× 133 2.3× 39 515
Rosangela Mastrangelo Italy 12 62 0.5× 73 0.6× 63 0.8× 25 0.4× 78 1.4× 25 417

Countries citing papers authored by L. Kris Kostanski

Since Specialization
Citations

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

Fields of papers citing papers by L. Kris Kostanski

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by L. Kris Kostanski. 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 L. Kris Kostanski. The network helps show where L. Kris Kostanski may publish in the future.

Co-authorship network of co-authors of L. Kris Kostanski

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

All Works

18 of 18 papers shown
1.
Kostanski, L. Kris, et al.. (2009). Environment-responsive hydrogel-based ultrafiltration membranes for protein bioseparation. Journal of Membrane Science. 336(1-2). 42–49. 42 indexed citations
2.
Kostanski, L. Kris, et al.. (2009). Development of novel tunable light scattering coating materials for fiber optic diffusers in photodynamic cancer therapy. Journal of Applied Polymer Science. 112(3). 1516–1523. 2 indexed citations
3.
Malta, Marília Brinati, et al.. (2009). Chromatographic separation of proteins using hydrophobic membrane shielded with an environment-responsive hydrogel. Journal of Membrane Science. 345(1-2). 177–182. 21 indexed citations
4.
Kostanski, L. Kris, et al.. (2009). Interpenetrating Polymer Networks as a Route to Tunable Multi-responsive Biomaterials: Development of Novel Concepts. Journal of Biomaterials Science Polymer Edition. 20(3). 271–297. 13 indexed citations
5.
Thompson, Michael R., et al.. (2008). Interaction of supercritical CO2 with alkyl-ammonium organoclays: Changes in morphology. Journal of Colloid and Interface Science. 324(1-2). 177–184. 19 indexed citations
6.
Kostanski, L. Kris, et al.. (2008). Biocompatible poly(N-vinyllactam)-based materials with environmentally-responsive permeability. Journal of Biomaterials Science Polymer Edition. 19(3). 275–290. 22 indexed citations
7.
Kostanski, L. Kris, Young‐Min Kim, John F. MacGregor, & A. E. Hamielec. (2007). Cationic polymerization using mixed cationic photoinitiator systems. Designed Monomers & Polymers. 10(4). 327–345. 6 indexed citations
8.
Kostanski, L. Kris, et al.. (2005). Hydroxypropyl Guar−Borate Interactions with Tear Film Mucin and Lysozyme. Langmuir. 21(22). 10032–10037. 29 indexed citations
9.
Kim, Young‐Min, L. Kris Kostanski, & John F. MacGregor. (2005). Kinetic studies of cationic photopolymerizations of cycloaliphatic epoxide, triethyleneglycol methyl vinyl ether, and cyclohexene oxide. Polymer Engineering and Science. 45(11). 1546–1555. 18 indexed citations
10.
Kostanski, L. Kris, et al.. (2004). Thermal and real-time FTIR spectroscopic analysis of the photopolymerization of diepoxide-vinyl ether mixtures. Journal of Thermal Analysis and Calorimetry. 78(1). 153–164. 10 indexed citations
11.
Kim, Young‐Min, John F. MacGregor, & L. Kris Kostanski. (2004). Principal component analysis of FT-IR spectra for cationic photopolymerization of mixtures of two monomers. Chemometrics and Intelligent Laboratory Systems. 75(1). 77–90. 7 indexed citations
12.
Kostanski, L. Kris, et al.. (2003). Size-exclusion chromatography—a review of calibration methodologies. Journal of Biochemical and Biophysical Methods. 58(2). 159–186. 141 indexed citations
13.
Kim, Young‐Min, L. Kris Kostanski, & John F. MacGregor. (2003). Photopolymerization of 3,4-epoxycyclohexylmethyl-3′,4′-epoxycyclohexane carboxylate and tri (ethylene glycol) methyl vinyl ether. Polymer. 44(18). 5103–5109. 32 indexed citations
14.
Wang, Wenjun, et al.. (1999). Temperature rising elution fractionation and characterization of ethylene/octene-1 copolymers synthesized with constrained geometry catalyst. Macromolecular Chemistry and Physics. 200(9). 2146–2151. 17 indexed citations
15.
16.
Kostanski, L. Kris & A. E. Hamielec. (1994). Thermal styrene/butyl acrylate co-oligomerization in a continuous stirred tank reactor. Polymer. 35(19). 4168–4174. 3 indexed citations
17.
Kostanski, L. Kris & A. E. Hamielec. (1992). Influence of temperature on butyl acrylate — styrene copolymerization parameters. Polymer. 33(17). 3706–3710. 20 indexed citations
18.
Kostanski, L. Kris. (1990). Bulk polymerization of diallyl benzene‐dicarboxylates. II. Effect of temperature on the gel point. Journal of Applied Polymer Science. 41(9-10). 2399–2407. 2 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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