Publications
* indicates corresponding author; student coauthors are underlined
25. H. Pham, K. Ramos, A. Sua, J. Acuna, K. Slowinska, T. Nguyen, A. Bui, M. Weber, F. Tian* (2020) Tuning Crystal Structures of Iron-Based Metal-Organic Frameworks for Drug Delivery Applications, ACS Omega, ASAP
24. A. Gamboa, S.F. Urfano, K. Hernandez, D.A. Fraser, L. Ayalew, K. Slowinska* (2019) Higher Order Architecture of Designer Peptides Forms Bioinspired 10 nm siRNA Delivery System, Scientific Reports, 9, 16875.
23. S. M. Araiza, K. Slowinska, S. Derakhshan* (2019) CaYGaO4 Olivine-Based Green and Red
Downconversion Phosphor, J Luminescence, in press. DOI:10.1016/j.jlumin.2019.116747
Downconversion Phosphor, J Luminescence, in press. DOI:10.1016/j.jlumin.2019.116747
22. K. Ho, C. Morfin, K. Slowinska* (2019) The Limitations of Collagen/CPP Hybrid Peptides as Carriers for Cancer Drugs to FaDu cells, Molecules, 24, 676. DOI:10.3390/molecules24040676
21. K. Slowinska* (2018) Cross-linked collagen gels using gold nanoparticles, in Methods in Molecular Biology series (Springer), edited by A.Udit “Protein Scaffolds: Design, Synthesis, and Applications” 1798:203-212.
DOI: 10.1007/978-1-4939-7893-9_16
DOI: 10.1007/978-1-4939-7893-9_16
20. E. B. Nguyen, J. Wishner, K. Slowinska* (2018) The Effect of Pulsed Electric Field on Expression of ECM proteins: Collagen, Elastin, and MMP1, in Human Dermal Fibroblas, Journal of Electroanalytical Chemistry, 812, 265-272.
19. L. Ayalew, J. Acuna, S.F. Urfano, C. Morfin, A. Sablan, M. Oh, A. Gamboa, K. Slowinska* (2017)Conjugation of Paclitaxel to Hybrid Peptide Carrier and Biological Evaluation in Jurkat and A549 Cancer Cell Lines, ACS Medicinal Chemistry Letters, 8, 814-819.
18. K. A. Ryu, K. Slowinska, T. Moore, A.P. Esser-Kahn* (2016) Immune response modulation of conjugated agonists with changing linker length, ACS Chemical Biology, 11(12), 3347-3352.DOI: 10.1021/acschembio.6b00895
17. M. Oh, C. Hu, S.F. Urfano, A. Arostegui, K. Slowinska* (2016) Thermoresponsive Collagen/Cell Penetrating Hybrid Peptide as Nanocarrier in Targeting-Free Cell Selection and Uptake. Analytical. Chemistry. 2016, 88, 9654−9661.
17. M. Oh, C. Hu, S.F. Urfano, A. Arostegui, K. Slowinska* (2016) Thermoresponsive Collagen/Cell Penetrating Hybrid Peptide as Nanocarrier in Targeting-Free Cell Selection and Uptake. Analytical. Chemistry. 2016, 88, 9654−9661.
16. A. Shinde, K.M. Feher, C.Hu, K.Slowinska* (2015) Peptide internalization enabled by folding: triple helical cell-penetrating peptides, Journal of Peptide Science, 21 (2), 77. DOI: 10.1002/psc.2725
15. T. Schuetz, N. Richmond, M.E. Harmon, J. Schuetz, L. Castaneda, K. Slowinska* (2013) The microstructure of collagen type I gel cross-linked with gold nanoparticles, Colloids and Surfaces B: Biointerfaces, 101, 118.
14. A.E. Reimer, K.M. Feher, D. Hernandez, K.Slowinska*,(2012) Collagen Peptide Assembles into Hollow Microtubes, Journal of Materials Chemistry, 22, 7701.
13. W.J.Hammond, J. Arndt, T. Nguyen, Slowinska, K.U., Jackson, C., Burgoyne, H.A., Hill, M.G.*, Slowinski, K.*, (2009) Detection of DNA π-Stack Lesions Using Scanning Electrochemical Microscopy,ECS Transactions, 16, 55-58. DOI: 10.1149/1.3103810
12. L. Castaneda, J. Valle, N. Yang, L. Dong, D. Ky, S. Pluskat, K. Slowinska*, (2008) Crosslinking Collagen with gold nanocrystals, Biomacromolecules, 9, 3383-3388.
11. C.K. Liu, J.E. Valle, K. Slowinska*; (2008) Diffusion of 2,2,6,6-tetramethylpiperidine 1-oxyl derivatives of variable hydrophobicity in tropocollagen I solution, Bioelectrochemistry, 74, 195-200.
10. L. Castaneda, S. Pluskat, D. Ky, E. Te, K. Slowinska*; (2007) Novel Collagen Based Material for Local Drug Delivery Systems, in The Nature of Design—Utilizing Biology’s Portfolio, edited by R.R. Naik, C.C. Perry, K. Shiba, R. Ulijn (Mater. Res. Soc. Symp. Proc. 1008E, Warrendale, PA), T09-08
9. D. Ky; C. K. Liu; C. Marumoto; L. Castaneda; K. Slowinska*; (2006) Electrochemical Time-of-Flight in Crosslinked Collagen Matrix Solution: Implications of Structural Changes for Drug Delivery Systems,Journal of Controlled Release,112, 214-222
8. H.A. Elsen, K. Slowinska, E. Hull, M. Majda*; (2006) Determination of the Capacitance of Solid-State Potentiometric Sensors. An Electrochemical Time-of-Flight Method, Analytical Chemistry, 78, 6356 - 6363. DOI:10.1021/ac060449w
7. T. Burnell, J.A. Cella*, P. Donahue, A. Duggal, T. Early, C.M. Heller, J. Liu, J. Shiang, D. Simon, K. Slowinska, M. Sze, E. Williams; (2005) Synthesis and Electooptical Properties of Copolymers Derived from Phenol-Functionalized Telechelic Oligofluorenes, Macromolecules, Macromolecules, 38, 10667-10677. DOI:10.1021/ma0518353
Pre-CSULB Publications:
6. K. Slowinska; M. Majda*; (2004) Measurements of the Capacitance and the Response Time of Solid-State Potentiometric Sensors by an Electrochemical Time-of-Flight Method, Journal of Solid State Electrochemistry, 8, 763
5. K. Slowinska; S.W. Feldberg; M. Majda*; (2003) An Electrochemical Time-of-Flight Technique with Galvanostatic Generation and Potentiometric Sensing, Journal of Electroanalytical Chemistry, 554, 61.
4. K. Slowinska; M. J. Johnson; M. Wittek; G. Miller and M. Majda*; (2001) Electrochemical Time-of-Flight Investigations of the Diffusion Processes in Complex 2D and 3D Molecular System, "in Chemical and Biological Sensors and Analytical Methods II”, M. A. Buttler, P. Vanysek, N. Yamazoe Eds.; The Electrochemical Society: ECS PV 2001-18, 130-137.
3. R.V. Chamberlain; K. Slowinska; M. Majda*; P. Buhlmann; A. Hiroshi; Y. Umezawa; (2000) Electrostatically-induced inclusion of anions in cyclodextrin monolayers on electrodes. Langmuir, 16, 1388
2. K. Slowinski; K. Slowinska; M. Majda*, M. (1999) Electron tunneling across hexadecanethiolate monolayers on mercury electrodes: Reorganization energy, structure, and permeability of the alkane/water interface. Journal of Physical Chemistry B, 103, 8544
1. K. Slowinska; K. Slowinski; M. Pietraszkiewicz; R. Bilewicz* (1999) Hexaazamacrocyclic ligands with long alkyl chains as functional units in monomolecular Langmuir-Blodgett films. Supramolecular Chem, 10, 201
6. K. Slowinska; M. Majda*; (2004) Measurements of the Capacitance and the Response Time of Solid-State Potentiometric Sensors by an Electrochemical Time-of-Flight Method, Journal of Solid State Electrochemistry, 8, 763
5. K. Slowinska; S.W. Feldberg; M. Majda*; (2003) An Electrochemical Time-of-Flight Technique with Galvanostatic Generation and Potentiometric Sensing, Journal of Electroanalytical Chemistry, 554, 61.
4. K. Slowinska; M. J. Johnson; M. Wittek; G. Miller and M. Majda*; (2001) Electrochemical Time-of-Flight Investigations of the Diffusion Processes in Complex 2D and 3D Molecular System, "in Chemical and Biological Sensors and Analytical Methods II”, M. A. Buttler, P. Vanysek, N. Yamazoe Eds.; The Electrochemical Society: ECS PV 2001-18, 130-137.
3. R.V. Chamberlain; K. Slowinska; M. Majda*; P. Buhlmann; A. Hiroshi; Y. Umezawa; (2000) Electrostatically-induced inclusion of anions in cyclodextrin monolayers on electrodes. Langmuir, 16, 1388
2. K. Slowinski; K. Slowinska; M. Majda*, M. (1999) Electron tunneling across hexadecanethiolate monolayers on mercury electrodes: Reorganization energy, structure, and permeability of the alkane/water interface. Journal of Physical Chemistry B, 103, 8544
1. K. Slowinska; K. Slowinski; M. Pietraszkiewicz; R. Bilewicz* (1999) Hexaazamacrocyclic ligands with long alkyl chains as functional units in monomolecular Langmuir-Blodgett films. Supramolecular Chem, 10, 201
Research Support:
1. National Institutes of Health (NIH)
2. Department of Defense (DARPA)
3. Research Corporation, Cottrell Collage Award (ResCorp)
4. CSU Program for Education and Research in Biotechnology (CSUPERB)
5. California State University (CSU)
6. HHMI – undergraduate student research support
7. BUILD - Building Infrastructure Leading to Diversity
1. National Institutes of Health (NIH)
2. Department of Defense (DARPA)
3. Research Corporation, Cottrell Collage Award (ResCorp)
4. CSU Program for Education and Research in Biotechnology (CSUPERB)
5. California State University (CSU)
6. HHMI – undergraduate student research support
7. BUILD - Building Infrastructure Leading to Diversity