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- Chemical Engineering/ Biointerfacial Science
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Jackman, Joshua A.
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- jjackman@skku.edu
- 031-290-7243
○ 주요 학력, 경력 (Experience)
▪ Ph.D. in Materials Science and Engineering, Nanyang Technological University (2015)
▪ Postdoctoral Scholar (Stanford University, 2015-2018)
○ 연구분야(Research Field)
▪ Label-Free Biosensors for Medicine and Biotechnology
▪ Peptide and Protein Engineering
▪ Lipid Membrane Biotechnology
▪ Antimicrobial Lipids: Biophysical Mechanisms and Biological Activities
○ 주요 연구논문(Major Research Achievements)
▪ Ferhan AR, Yoon BK, Park SH, Sut TN, Chin HK, Park JH, Jackman JA*, Cho NJ*. Solvent-Assisted Preparation of Supported Lipid Bilayers. Nature Protocols, vol. 14, pp. 2091-2118 (2019).
▪ Jackman JA, Costa VV, Park SH, Real ALCV, Park JH, Cardozo PL, Ferhan AR, Olmo IG, Poreira TP, Bambirra JL, Queiroz VF, Queiroz-Junior CM, Foureaux G, Souza DG, Ribeiro FM, Yoon BK, Wynendaele E, De Spiegeleer B, Teixeira MM, Cho NJ. Therapeutic Treatment of Zika Virus Infection Using a Brain-Penetrating Antiviral Peptide. Nature Materials, vol. 17, pp. 971-977 (2018).
▪ Jackman JA, Ferhan AR, Cho NJ. Nanoplasmonic Sensors for Biointerfacial Science. Chemical Society Reviews, vol. 46, no. 12, pp. 3615-3660 (2017).
▪ Jackman JA, Goh HZ, Zhdanov VP, Knoll W, Cho NJ. Deciphering How Pore Formation Causes Strain-Induced Membrane Lysis of Lipid Vesicles. Journal of the American Chemical Society, vol. 138, no. 4, pp. 1406-1413 (2016).
▪ Jackman JA, Tabaei SR, Zhao Z, Yorulmaz S, Cho NJ. Self-Assembly Formation of Lipid Bilayer Coatings on Bare Aluminum Oxide: Overcoming the Force of Interfacial Water. ACS Applied Materials & Interfaces, vol. 7, no. 1, pp. 959-968 (2015).
○ 연구협력 필요 분야(Research Interest)
▪ In vitro and in vivo models (infectious diseases, cancer, immunology)
▪ Organic chemistry (structure-function relationships of lipid molecules)
▪ Cell biology (bacterial and mammalian cell culture)
○ 연구협력 가능 분야(Research Collaboration)
▪ Medical diagnostics and biosensors
▪ Pharmaceutical drug development & drug delivery
▪ Biomacromolecular interaction analysis