The Number of Published Papers |
45 |
(Main author: 27) |
Total Times Cited, h-index (LINK) |
2661, 20 |
(Powered by Google Scholar as of 24 Dec 2023) |
Total Times Cited, h-index (LINK) |
2148, 18 |
(Powered by Web of Science as of 24 Dec 2023) |
The average Impact Factor (2022) of the SCI(E) journals where our papers have been published is 9.0 (Main author: 8.8). |
Journal Impact Factor 2022 (Rank by Journal Impact Factor) |
Journal |
IF (2022) |
Category (JIF percentile) |
No. of published papers |
J Membr Sci |
9.5 |
Polymer Science (4.1%) |
13 Papers |
Desalination |
9.9 |
Water Resources (2.4%) |
3 Paper |
Membranes |
4.2 |
Polymer Science (28.5%) |
3 Paper |
Chem Eng J |
15.1 |
Engineering, Chemical (3.2%) |
2 Paper |
Chemosphere |
8.8 |
Environmental Sciences (10.8%) |
2 Paper |
Water Res |
12.8 |
Water Resources (0.5%) |
2 Paper |
ACS Appl Bio Mater |
4.7 |
Nanoscience & Nanotechnology (47.84%) |
1 Paper |
Appl Sci |
2.7 |
Engineering, Multidisciplinary (46.1%) |
1 Paper |
Carbohydr Polym |
11.2 |
Polymer Science; Chemistry, Organic (2.9%) |
1 Paper |
Environ Sci: Water Res Technol |
5.0 |
Water Resources (15.0%) |
1 Paper |
J Mater Chem A |
11.9 |
Energy & Fuels (9.1%) |
1 Paper |
J Water Process Eng |
7.0 |
Water Resources (5.3%) |
1 Paper |
npj Clean Water |
11.4 |
Water Resources (1.5%) |
1 Paper |
Polymers |
5.0 |
Polymer Science (18.0%) |
1 Paper |
J Microbiol Biotechnol |
2.8 |
Biotechnology & Applied Microbiology (63.1%) |
2 Papers |
ACS Appl Mater Interfaces |
9.5 |
Materials Science, Multidisciplinary (15.9%) |
1 Paper |
Adv Mater |
29.4 |
Chemistry, Physical (2.2%) |
1 Paper |
Catalysts |
3.9 |
Chemistry, Physical (43.8%) |
1 Paper |
Environ Sci Technol |
11.4 |
Environmental Sciences (6.8%) |
1 Paper |
Environ Sci Technol Lett |
10.9 |
Environmental Sciences (8.2%) |
1 Paper |
J Polym Environ |
5.3 |
Polymer Science (13.4%) |
1 Paper |
Polym Bull |
3.2 |
Polymer Science (41.3%) |
1 Paper |
Sci Adv |
13.6 |
Multidisciplinary Science (8.9%) |
1 Paper |
Sci Rep |
4.6 |
Multidisciplinary Science (29.5%) |
1 Paper |
Sep Purif Technol |
8.6 |
Engineering, Chemical (8.2%) |
1 Paper |
†Co-first author, *Corresponding author, ASEM member |
2019
19. J. Lee, Y.-J. Won, D.-C. Choi, S. Lee, P.-K. Park, K.-H. Choo, H.-S. Oh*, C.-H. Lee*, Micro-patterned membranes with enzymatic quorum quenching activity to control biofouling in an MBR for wastewater treatment, J Membr Sci, 592 (2019) 117365. [2019 JCR IF: 7.183; Polymer Science: 2.81%] LINK
18. G.S.M.D.P. Sethunga†, J. Lee†, R. Wang, T.-H. Bae*, Influence of membrane characteristics and operating parameters on transport properties of dissolved methane in a hollow fiber membrane contactor for biogas recovery from anaerobic effluents, J Membr Sci, 589 (2019) 117263. [2019 JCR IF: 7.183; Polymer Science: 2.81%] LINK
17. T. Kim†, J. Lee†, G. Lee†, J. Lee, H. Song, J.Y. Jho, H.H. Lee*, Y.H. Kim*, Synthesis of a carbonaceous two-dimensional (2D) material, ACS Appl Mater Interfaces, 11(24) (2019) 21308-21313. [2019 JCR IF: 8.758; Materials Science, Multidisciplinary: 10.35%] LINK
16. J. Lee, R. Wang, T.-H. Bae*, A comprehensive understanding of co-solvent effects on interfacial polymerization: Interaction with trimesoyl chloride, J Membr Sci, 583 (2019) 70-80. [2019 JCR IF: 7.183; Polymer Science: 2.81%] LINK
2018
15. J. Lee, H. Yoon, J.H. Yoo, D.-C. Choi, C.H. Nahm, S.H. Lee, H.-R. Chae, Y.H. Kim, C.-H. Lee*, P.-K. Park*, Influence of the sublayer structure of thin-film composite reverse osmosis membranes on the overall water flux, Environ Sci: Water Res Technol, 4(12) (2018) 1912-1922. (Outside Front Cover Article, Recent HOT Articles 2018) [2018 JCR IF: 4.195; Water Resources: 14.50%] LINK
14. W. Rongwong†, J. Lee†, K. Goh, H.E. Karahan, T.-H. Bae*, Membrane-based technologies for the post-treatment of anaerobic effluents: current status and new opportunities, npj Clean Water, 1(1) (2018) 21 (Invited contribution). [2018 JCR IF: N.A.; Water Resources: N.A.] LINK
13. J. Lee, R. Wang, T.-H. Bae*, High-performance reverse osmosis membranes fabricated on highly porous microstructured supports, Desalination, 436 (2018) 48-55. [2018 JCR IF: 6.035; Water Resources: 1.65%] LINK
2017
12. C.H. Nahm, S. Lee, S.H. Lee, K. Lee, J. Lee, H. Kwon, K.-H. Choo, J.-K. Lee, J.Y. Jang, C.-H. Lee*, P.-K. Park*, Mitigation of membrane biofouling in MBR using a cellulolytic bacterium, Undibacterium sp. DM-1, isolated from activated sludge, J Microbiol Biotechnol, 27(3) (2017) 573-583. [2017 JCR IF: 1.650; Biotechnology & Applied Microbiology: 68.01%] LINK
11. S.H. Lee, S. Lee, K. Lee, C.H. Nahm, S.-J. Jo, J. Lee, K.-H. Choo, J.-K. Lee, C.-H. Lee*, P.-K. Park*, Enhancing physical properties and lifespan of bacterial quorum quenching media through combination of ionic cross-linking and dehydration, J Microbiol Biotechnol, 27(3) (2017) 552-560. [2017 JCR IF: 1.650; Biotechnology & Applied Microbiology: 68.01%] LINK
10. D.-C. Choi, S.-Y. Jung, Y.-J. Won, J.H. Jang, J.-W. Lee, H.-R. Chae, J. Lim, K.H. Ahn, S. Lee, J.-H. Kim, P.-K. Park*, C.-H. Lee*, Effect of pattern shape on the initial deposition of particles in the aqueous phase on patterned membranes during crossflow filtration, Environ Sci Technol Lett, 4(2) (2017) 66-70. [2017 JCR IF: 5.869; Environmental Sciences: 7.64%] LINK
2016
9. Y.-J. Won, S.-Y. Jung, J.H. Jang, J.-W. Lee, H.-R. Chae, D.-C. Choi, K.H. Ahn, C.-H. Lee*, P.-K. Park*, Correlation of membrane fouling with topography of patterned membranes for water treatment, J Membr Sci, 498 (2016) 14-19. [2016 JCR IF: 6.035; Polymer Science: 4.07%] LINK
2015
8. J. Lee, J. H. Jang, H.-R. Chae, S.H. Lee, C.-H. Lee*, P.-K. Park*, Y.-J. Won, I.-C. Kim, A facile route to enhance the water flux of a thin-film composite reverse osmosis membrane: incorporating thickness-controlled graphene oxide in a highly porous support layer, J Mater Chem A, 3(44) (2015) 22053-22060 (Outside Back Cover Article). [2015 JCR IF: 8.262; Energy & Fuels: 3.98%] LINK
7. J.H. Jang, J. Lee, S.-Y. Jung, D.-C. Choi, Y.-J. Won, K.H. Ahn, P.-K. Park*, C.-H. Lee*, Correlation between particle deposition and the size ratio of particles to patterns in nano- and micro-patterned membranes, Sep Purif Technol, 156 (2015) 608-616. [2015 JCR IF: 3.299; Engineering, Chemical: 15.19%] LINK
6. D.-C. Choi, S.-Y. Jung, Y.-J. Won, J.H. Jang, J. Lee, H.-R. Chae, K.H. Ahn, S. Lee, P.-K. Park*, C.-H. Lee*, Three-dimensional hydraulic modeling of particle deposition on the patterned isopore membrane in crossflow microfiltration, J Membr Sci, 492 (2015) 156-163. [2015 JCR IF: 5.557; Polymer Science: 6.47%] LINK
5. I. Kim, D.-C. Choi, J. Lee, H.-R. Chae, J.H. Jang, C.-H. Lee*, P.-K. Park, Y.-J. Won*, Preparation and application of patterned hollow-fiber membranes to membrane bioreactor for wastewater treatment, J Membr Sci, 490 (2015) 190-196. [2015 JCR IF: 5.557; Polymer Science: 6.47%] LINK
4. H.-R. Chae, J. Lee, C.-H. Lee*, I.-C. Kim, P.-K. Park*, Graphene oxide-embedded thin-film composite reverse osmosis membrane with high flux, anti-biofouling, and chlorine resistance, J Membr Sci, 483 (2015) 128–135 (The most cited articles published in JMS since 2015). [2015 JCR IF: 5.557; Polymer Science: 6.47%] LINK
2014
3. Y.-J. Won, D.-C. Choi, J.H. Jang, J.-W. Lee, H.-R. Chae, I. Kim, K.H. Ahn, C.-H Lee*, I.-C. Kim, Factors affecting pattern fidelity and performance of a patterned membrane, J Membr Sci, 462 (2014) 1-8. [2014 JCR IF: 5.056; Polymer Science: 7.93%] LINK
2013
2. J. Lee, H.-R. Chae, Y.-J. Won, K. Lee, C.-H. Lee*, H.H. Lee, I.-C. Kim, J.-m. Lee, Graphene oxide nanoplatelets composite membrane with hydrophilic and antifouling properties for wastewater treatment, J Membr Sci, 448 (2013) 223–230 (The most cited articles published in JMS since 2013). [2013 JCR IF: 4.908; Polymer Science: 7.93%] LINK
2012
1. Y.-J. Won, J. Lee, D.-C. Choi, H.-R. Chae, I. Kim, C.-H Lee*, I.-C. Kim, Preparation and application of patterned membranes for wastewater treatment, Environ Sci Technol, 46(20) (2012) 11021-11027. [2012 JCR IF: 5.257; Environmental Sciences: 3.10%] LINK