PUBLICATION LISTS
51. Optofluidic paper-based analytical device for discriminative detection of organic substances via digital color coding
Jinsol Choi†, Chi Yeung Oh†, Gong Qian, Tae Soup Shim* and Heon-Ho Jeong*
Microsystems & Nanoengineering, 11, 11, 2025.
50. Comparison and evaluation of printing angle dependent fabrication of microneedles using Polyjet and DLP-SLA 3D printers
Seung Hui An and Heon-Ho Jeong*
Applied Chemistry for Engineering, 35, 5, 2024.
49. Microfluidic Tesla mixer with 3D obstructions to exceptionally improve the curcumin encpasulation of PLGA nanoparticles
Phuong Thao Le, Seung Hui An and Heon-Ho Jeong*
Chemical Engineering Journal, 486, 149377, 2024.
48. Influence of FeVO4 crystallinity on oxygen evolution reaction activity
M. Shruthi, S. Ashoka*, K. Yogesh, Heon-Ho Jeong*, U.T. Uthappa, M. Selvaraj and G.K. Kiran*
Ceramics International, 50, 3366-3372, 2024.
47. A Facile Method to Fabricate an Enclosed Paper-Based Analytical Device via Double-Sided Patterning for Ionic Contaminant Detection
Jinsol Choi†, Eun-Ho Lee†, Sung-Min Kang* and Heon-Ho Jeong*
Biosensors, 13, 915, 2023. [Selected as Cover Story]
46. Rare earth derived porous metal-organic-frameworks (RE-MOFs) as a smart nanobiomaterials for cancer therapy: Recent trends
U.T. Uthappa*, Maduru Suneetha, Seong Min Ji, Heon-Ho Jeong* and Sung Soo Han*
Microporous and Mesoporous Materials, 362, 112795, 2023.
45. Microfluidic formation of biodegradable PCLDA microparticles as sustainable sorbents for treatment of organic contaminants in wastewater
Phuong Pham Thanh Nguyen, Seunghui An and Heon-Ho Jeong*
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 656, 130409, 2023.
44. Fabrication of 3D paper-based analytical device using double-sided imprinting method for metal ion detection
Jinsol Choi and Heon-Ho Jeong*
Clean Technology, 28(4), 323-330, 2022.
43. Numerical and experimental investigations of uniform fluid distribution for droplet formation in parallelized microfluidics
Adedamola D. Aladese and Heon-Ho Jeong*
Frontiers in Sensors, 3, 1014864, 2022.
42. Tailoring of 2D MoS2 microspheres on 3D low-cost DE for the efficient removal of hazardous cationic dyes
U.T. Uthappa*, Shrinath Bhat, Sung Soo Han*, Heon-Ho Jeong, Tariq Altalhi, Ho-Young Jung, Mahaveer D. Kurkuri*
Advanced Power Technology, 33, 103800, 2022.
41. Recent Developments in 3D Printing of Droplet-Based Microfluidics
Adedamola D. Aladese and Heon-Ho Jeong*
BioChip Journal, 15(4), 313-333, 2021.
40. Recent Developments in Bacterial Chemotaxis Analysis Based on the Microfluidic System
Heon-Ho Jeong*
SLAS Technology, 26(2), 159-164, 2021.
39. Fabrication of Paper-based Biosensor Chip Using Polydimethysiloxane Blade Coating Method
Heon-Ho Jeong* and Chami Park
Korean Chem. Eng. Res., 59(1), 100-105, 2021.
38.Improvement of a diffusion-based microfluidic chemotaxis assay through stable formation of a chemical gradient
Byungjin Lee, Heon-Ho Jeong, Kyoung-Ku Kang, Chang-Soo Lee* and Sang-Ho Lee*
Chemical Engineering Science, 202, 130-137, 2019.
37. Hydrodynamic control of droplet breakup, immobilization, and coalescence for a multiplex microfluidic static droplet array
Heon-Ho Jeong, Byungjin Lee, Si Hyung Jin and Chang-Soo Lee*
Chemical Engineering Journal, 360, 562-568, 2019.
36. Large-scale production of compound bubbles using parallelized microfluidics for efficient extraction of metal ions
Heon-Ho Jeong, Zhuo Chen, Sagar Yadavali, Jianhong Xu, David Issadore* and Daeyeon Lee*
Lab on a chip, 19(4), 665-673, 2019.
35. Controlled production of monodisperse polycaprolactone microparticles using microfluidic device
Heon-Ho Jeong*
Clean Technology, 25(4), 283-288, 2019.
34. Scalable static droplet array for biochemical assays based on concentration gradients
Byungjin Lee, Si Hyung Jin, Young-Moo Noh, Seong-Geun Jeong, Heon-Ho Jeong, Chang-Soo Lee*
Biomolecules, 8(2), 37, 2018.
33. Simple analysis of lipid inhibition activity on an adipocyte microcell pattern chip
Gi Yong Kim, Su-Jin Yeom, Sung-Chan Jang, Chang-Soo Lee, Changhyun Roh*, Heon-Ho Jeong*
Biomolecules, 8(2), 37, 2018.
32. Injectable Granular Hydrogels with Multifunctional Properties for Biomedical Applications
Joshua E Mealy, Jennifer J Chung, Heon‐Ho Jeong, David Issadore, Daeyeon Lee, Pavan Atluri, Jason A Burdick*
Advanced Materials, 30(20), 1705912, 2018.
31. Moldable perfluoropolyether-polyethylene glycol networks with tunable wettability and solvent resistance for rapid prototyping of droplet microfluidics
Heon-Ho Jeong, Syung Hun Han, Sagar Yadavali, Junhyong Kim, David Issadore* and Daeyeon Lee*
Chemistry of Materials, 30(8), 2583-2588, 2018.
30. Silicon and glass very large scale microfluidic droplet integration for terascale generation of polymer microparticles
Sagar Yadavali, Heon-Ho Jeong, Daeyeon Lee* and David Issadore*
Nature Communications, 9(1), 1222, 2018.
29. Enhancing production rate of emulsion via parallelization of flow-focusing generators
Heon-Ho Jeong*
Korean Chemical Engineering Research, 56(5), 761-766, 2018.
28. Liter-scale production of uniform gas bubbles via parallelization of flow-focusing generators
Heon-Ho Jeong, Sagar Yadavali, David Issadore* and Daeyeon Lee*
Lab on a chip, 17(15), 2667-2673, 2017.
27. Ultra-high throughput detection (1 million droplets per second) of fluorescent droplets using a cell phone camera and time domain encoded optofluidics
Venkata R. Yelleswarapu, Heon-Ho Jeong, Sagar Yadavali and David Issadore*
Lab on a chip, 17(6), 1083-1094, 2017.
Before Chonnam National University
26. On-chip analysis, indexing and screening for chemical producing bacteria in microfluidic static droplet array
Sungho Jang, Byungjin Lee, Heon-Ho Jeong, Si Hyung Jin, Sungyeon Jang, Seong Gyeong Kim, Gyoo Yeol Jung and Chang-Soo Lee*
Lab on a chip, 16(10), 1909-1916, 2016.
25. Efficient and reliable screening of anti-obesity agents on a micro cell pattern chip
Gi yong Kim, Heon-Ho Jeong, Su-jin Yeom, Chang-Soo Lee* and Changhyun Roh*
Journal of chemical Technology and Biotechnology, 91(10), 2688-2692, 2016.
24. A highly addressable static droplet array enabling digital control of single droplet at pico-volume resolution
Heon-Ho Jeong, Byungjin Lee, Si Hyung Jin, Seong-Geun Jeong and Chang-Soo Lee*
Lab on a chip, 16(9), 1698-1707, 2016.
23. Monitoring of chromosome dynamics of single yeast cell in a microfluidic platform with aperture cell traps
Si Hyung Jin, Sung-Chan Jang, Byungjin Lee, Heon-Ho Jeong, Seong-Geun Jeong, Sung Sik Lee, Keun Pil Kim and Chang-Soo Lee*
Lab on a chip (Back cover), 16(8), 1358-1365, 2016.
22. Recent developments in scale-up of microfluidic emulsion generation via parallelization
Heon-Ho Jeong, David Issadore and Daeyeon Lee*
Korean Journal of Chemical Engineering, 33, 1757-1766, 2016.
21. Simple fabrication of adipocyte cell chip using micropatterning
Gi Yong Kim, Heon-Ho Jeong, Chang-Soo Lee* and Changhyun Roh*
Korean Chemical Engineering Research, 54(2), 223-228, 2016.
20. Kilo-scale droplet generation in three-dimensional monolithic elastomer device (3D MED)
Heon-Ho Jeong, Venkata R. Yelleswarapu, Sagar Yadavali, David Issadore* and Daeyeon Lee*
Lab on a chip (selected as Lab on a Chip Recent HOT Article), 15(23), 4387-4392, 2015.
19. A Programmable microfluidic static droplet array for droplet generation, transportation, fusion, storage, and retrieval
Si Hyung Jin+, Heon-Ho Jeong+, Byung Jin Lee, Sung Sik Lee and Chang-Soo Lee*
Lab on a chip (Back cover), 15(18), 3677-3686, 2015.
18. Morphological control of cells on 3-dimensional multi-layer nanotopographic structures
Heon-Ho Jeong, Young-Moo Noh, Sung-Chan Jang, Sang-Ho Lee, Jin-Sung Park and Chang-Soo Lee*
Journal of Nanoscience and Nanotechnology, 15(5), 3918-3922, 2015.
17. Microfluidic static droplet array for analyzing microbial communication on a population gradient
Heon-Ho Jeong+, Si Hyung Jin+, Byung Jin Lee, Taesung Kim and Chang-Soo Lee*
Lab on a chip, 15(3), 889-899, 2015.
16. A “Light-up 1D” supramolecular nanoprobe for silver ions based on assembly of pyrene-labeled peptide amphiphiles: cell-imaging and antimicrobial activity
Inhye Kim, Heon-Ho Jeong, Yong-Jae Kim, Na-Eun Lee, Kang-moo Huh, Chang-Soo Lee, Geon Hee Kim and Eunji Lee*
Journal of Materials Chemistry B (Back cover), 2(3), 6478-6486, 2014.
15. Effect of temperature on biofilm formation by Antarctic marine bacteria in a microfluidic device
Heon-Ho Jeong+, Seong-Geun Jeong+, Aeri-Park, Sung-Chan Jang, Soon-Kyu Hong and Chang-Soo Lee*
Analytical Biochemistry, 446, 90-95, 2014.
14. Optimization of microwell-based cell docking in microvalve integrated microfluidic device
Kang Song, Heon-Ho Jeong, Si Hyung Jin, Jin-Sung Park and Chang-Soo Lee*
Biochip Journal, 8(3), 227-233, 2014.
13. Analysis of morphological change of polar bacterium using microfluidic device with temperature gradient
Seong-Geun Jeong, Aeri Park, Heon-Ho Jeong, Soon Gyu Hong and Chang-Soo Lee*
KSBB Journal, 29(4), 278-284, 2014.
12. Droplet-based microfluidic device for high-throughput screening
Heon-Ho Jeong, Young-Moo Noh, Sung-Chan Jang and Chang-Soo Lee*
Korean Chemical Engineering Research, 52, 141-153, 2014.
11. Pump-less static microfluidic device for analysis of chemotaxis of Pseudomonas aeruginosa using wetting and capillary action
Heon-Ho Jeong+, Sang-Ho Lee+ and Chang-Soo Lee*
Biosensors and Bioelectronics, 47, 278-284, 2013.
10. Generation of uniform agarose microwells for cell patterning by micromolding in capillaries
Heon-Ho Jeong, Ji-Hye Lee, Young-Moo Noh, Yun-Gon Kim and Chang-Soo Lee*
Macromolecular Research, 21(5), 534-540, 2013.
9. Profiling surface glycans on live cells and tissues using quantum dot-lectin nanoconjugates
Heon-Ho Jeong+, Yun-Gon Kim+, Sung-Chan Jang, Hyunmmin Yi and Chang-Soo Lee*
Lab on a chip (Inside front cover), 12, 3290-3295, 2012.
8. The inhibitory effect of phloretin on the formation of Escherichia coli O157:H7 biofilm in a microfluidic system
Aeri Park+, Heon-Ho Jeong+, Jintae Lee and Chang-Soo Lee*
Biochip Journal, 6, 299-305, 2012.
7. Analysis of Pseudomonas aeruginosa motility in microchannels
Sung-Chan Jang, Heon-Ho Jeong and Chang-Soo Lee*
Korean Chemical Engineering Research, 50, 743-748, 2012.
6. Development of a selective, sensitive, and reversible biosensor by the genetic incorporation of a metal-binding site into green fluorescent protein
Niraikulam Ayyadurai, Nadarajan Saravanan Prabhu, Kanagavel Deepankumar, Sun-Gu Lee, Heon-Ho Jeong, Chang-Soo Lee and Hyungdon Yun*
Angew. Chem. Int. Ed., 50, 6534-6537, 2011.
5. Effect of shear stress on the formation of bacterial biofilm in a microfluidic channel
Aeri Park, Heon-Ho Jeong, Jintae Lee, Keun Pil Kim and Chang-Soo Lee*
Biochip Journal, 5, 236-241, 2011. (Outside front cover)
4. Fabrication of cell chip through eco-friendly process
Heon-Ho Jeong, Hwan-Moon Song and Chang-Soo Lee*
Clean Technology, 17, 25-30, 2011.
3. Microfluidic monitoring of Pseudomonas aeruginosa chemotaxis under the continuous chemical gradient
Heon-Ho Jeong, Sang-Ho Lee, Jong-Min Kim, Hye-Eun Kim, Yun-Gon Kim, Jung Yul Yoo, Woo-Suk Chang and Chang-Soo Lee*
Biosensors and Bioelectronics, 26, 351-356, 2010.
2. Fabrication of selective anti-biofouling surface for micro/nanopatterning of proteins
Heon-Ho Jeong, Hong-Chul Jang, Yung-Hun Yang, Ji-Hye Lee, Yon-Hwan Kim, Kang-Moo Huh and Chang-Soo Lee*
Macromolecular Research, 18, 868-875, 2010.
1. Facile cell patterning based on selectively patterned polydimethylsiloxane (PDMS) and polyelectrolyte surface
Heon-Ho Jeong, Hwan-Moon Song, Ye-Jin Hwang, Taek-Sung Hwang and Chang-Soo Lee*
KSBB Journal, 24, 515-520, 2009.