Journal Articles:
1. Kim,
S.; Traore, Y.L.; Ho, E.A.; Liu, S.*
pH-responsive electrospun polyurethane membrane for
Intravaginal release of nanoparticles. Acta
biomaterialia, 2018, Accepted. (Impact
Factor: 6.383).
2. Carta,
T.; Gawaziuk, J. P.; Diaz-Abele, J.; Liu, S.;
Jeschke M, Logsetty, S.* (2018). Properties of an
Ideal Burn Dressing: A Survey of Burn Survivors and
Front-line Burn Healthcare Providers. Burns,
2018, accepted. (Impact Factor: 1.904).
3. Ghanbar,
S.; Liu S.* New generation of N-chloramine-QAC
composite disinfectants: a superior antimicrobial
agent to target gram-negative bacteria in biological
fluids. ACS Omega (A new journal launched by ACS
in 2016), 2018, accepted.
4. Kim,
S.; Traore, Y.L.; Ho, E.A.*; Liu, S.*
Segmented reservoir-IVR filled with pH-responsive
polyurethane gels for on-demand reversible release
of intravaginal nanocarrier. ACS Applied Bio
Materials (A new journal launched by ACS in 2018),
2018, accepted.
5. Li,
W.; Cicek, N.; Levin D.B.; Liu, S.* Enabling
electrospinning of medium-chain length
polyhydroxyalkanoates (PHAs) by blending with
short-chain length PHAs. International Journal
of Polymeric Materials and Polymeric Biomaterials,
2018, published online (Impact Factor: 2.127).
https://doi.org/10.1080/00914037.2018.1466136
6. Omonijo
F, Kim S, Wang Q, Gong J, Nyachoti M, Liu S,
Yang C.* Development of novel microparticles for
effective delivery of thymol and lauric acid to pig
intestinal tract. Journal of Agricultural and
Food Chemistry, 2018; 66(37):
9608-9615 (Impact Factor: 3.412).
7. Shek, K.; Patidar, R.;
Kohja Z.;
Liu, S.; Gawaziuk, J.P.; Gawthrop, M.;
Kumar A.; Logsetty, S.* Rate of contamination of
hospital privacy curtains in a burns/plastic ward:
a longitudinal study. American Journal of
Infection Control, 2018; 46(9):1019-21.
(Impact Factor: 1.929).
8. Norouzi,
M.; Abdali, Z.; Liu, S.; Miller D.*
Salinomycin-loaded nanofibers for glioblastoma
therapy. Scientific Reports, 2018;
8:9377-86 (Impact Factor: 4.122).
9. Hassan,
Y.;
Lahaye, L.; Liu, S; Gong, J.; Gay, C.; Peng, J.;
Gong, M.; Yang, C.* Innovative drugs, chemicals,
and enzymes within the animal production chain: a
report from the second alternatives to antibiotics
symposium. Veterinary Research, 2018;
49(1):71-87 (Impact Factor: 2.903, cited once).
10. Kim,
S.; Liu,
S.* Smart biostable polyurethane biomaterials for
long-term implantable biomedical application. ACS
Biomaterials Science & Engineering, 2018;
4(5): 1479-1490 (Impact Factor: 4.432, times
cited:
2).
11. Manna,
P.K.; Nickel, R.; Wroczynskyj, Y.;
Yathindranath, V.;
Li, J.; Liu, S.; Miller, D.W.; van Lierop,
J.* Simple, hackable size and shape selective
amine-functionalized fe- oxide nanoparticles for
biomedical applications. Langmuir, 2018;
34(8): 2778-2757 (Impact Factor: 3.789,
cited once).
12. Ghanbar,
S.; Fumakia, M.;
Ho, E.A.; Liu, S.* A new strategy for
battling bacterial resistance: turning potent,
non-selectively and potentially
non-resistance-inducing biocides into selective
ones. Nanomedicine: Nanotechnology, Biology,
and Medicine, 2018; 14(2):471-481
(Impact Factor: 6.500, cited one).
13. Kim,
S.; Traore, Y.L.;
Lee, J.S.; Kim, J.H.; Ho, E.A.*; Liu, S.*
Self-assembled nanoparticles made from a new
PEGylated poly(aspartic acid) graft copolymer for
intravaginal delivery of poorly water-soluble
drugs. Journal of Biomaterials Science,
Polymer Edition, 2018;
28(17):2082-2099 (Impact Factor: 1.911, times
cited:
3).
14. Brichacek,
M.; Ning, C.; Gawaziuk, J.P.;
Liu, S.; Logsetty, S.*
In vitro measurement
of
burn dressing adherence and the effect of
interventions on reducing adherence. Burns, 2017;
43(5):1002-1010
(Impact Factor: 2.134, cited once).
15. Shek,
K.; Patidar, R.; Kohja Z.;
Liu, S.; Gawaziuk, J.P.; Gawthrop, M.;
Kumar A.; Logsetty, S.* Rate of contamination of
hospital privacy curtains on a burns and plastic
surgery ward: a cross-sectional study. Journal
of Hospital Infection,
2017; 96(1):54-58. (Impact
Factor: 3.354, times cited: 5).
16. Kim S.; Chen, Y.; Ho, E.A.*; Liu, S.*
Reversibly pH-responsive polyurethane membranes
for on-demand intravaginal drug delivery. Acta
biomaterialia, 2017; 47(1):100-112
(Impact Factor: 6.383, times cited: 12).
17. Kaur,
R.; Liu,
S.* Antibacterial surface design-contact kill. INVITED
REVIEW PAPER. Progress in Surface
Science, 2016; 91(3):136-153
(Impact Factor: 9.000, times cited: 24).
18. Rahma,
H.;
Nickel, R.; Skoropata, E.; Wroczynsky, Y.;
Rutley, C.; Manna, P.K.; Hsiao, C.H.;
Ouyang, H.; van Lierop, J.; Liu, S.* Quaternized N-chloramine
coated magnetic nanoparticles: a trifecta of
superior antibacterial activity, minimal residual
toxicity and rapid site removal. RSC advances,
2016; 6: 65837-65846 (Impact Factor: 2.936,
cited once).
19. Asghari,
S.;
Logsetty S., Liu S.* Imparting commercial
antibacterial dressings with low-adherence to burn
wounds. Burns, 2016; 42(4):
877-883 (Impact Factor: 2.134, times
cited: 7).
20. Ning,
C.; Li, L.; Logsetty,
S.; Guo, M.; Ens, W.; Liu, S.* Enhanced
antibacterial activity of new “composite” biocides
with both N-chloramine
and quaternary ammonium moieties. RSC advances,
2015; 5: 93877-93887 (Impact Factor: 2.936,
times cited: 8).
21. Silvaa,
M.D.; Ning, C.; Ghanbar, S.;
Zhanel, G.; Logsetty, S.; Liu, S.; Kumar, A.*
Evidence that a novel quaternary compound and its
organic N-chloramine derivative do not
select for resistant mutants of Pseudomonas
aeruginosa. Journal of Hospital
Infection, 2015; 91(1): 53- 8
(Impact Factor: 3.354, times cited: 6).
22. Rahma,
H.; Asghari, S.; Logsetty, S.; Gu, X.; Liu,
S.* Preparation of hollow N-chloramine-functionalized
hemispherical silica particles with enhanced
efficacy against bacteria in the presence of organic
load: Synthesis, characterization and antibacterial
activity. ACS Applied Materials &
Interfaces, 2015; 7(21): 11536–11546
(Impact Factor: 8.097, times cited: 7).
23. NazariPour,
S., Ghugare, S.V.; Wiens, R.;
Gough, K; Liu, S.* Controlled in-situ formation of
polyacrylamide hydrogel on PET surface via
SI-ARGET-ATRP for wound dressings. Applied
Surface Science, 2015; 349: 695-704
(Impact Factor: 4.439, times cited: 17).
24. Carta T.,
Gawaziuk J., Liu S., Logsetty S.* Use of
mineral oil fleet enema for the removal of a large
tar burn: A case report. Burns, 2014;
41(2):e11-4 (Impact Factor: 2.134, time
cited: 2. We found that tar could be
easily removed with mineral oil without
irritation. Victims of tar burns have benefited
and will continue to benefit from this work).
25. Ning, C.;
Logsetty, S.; Ghugare S.; Liu, S.* Effect
of hydrogel coating, water and surfactant wetting
on the adherence of PET dressings. Burns,
2014; 40: 1164-1171. (Impact Factor: 2.134,
time cited: 8).
26. Kulkarni, A.;
Diehl-Jones, W.; Liu, S.* Layer-by-Layer assembly
of epidermal growth factors on polyurethane films
for wound closure. Journal of Biomaterials
Applications, 2014; 29(2): 278-290.
(Impact Factor: 2.082, time cited: 11).
27. Li, L.; Li,
J.; Kulkarni, A.; Liu, S.*
Polyurethane (PU)-derived photoactive and
copper-free clickable surface based on
perfluorophenyl azide (PFPA) chemistry. Journal
of Material Chemistry B, 2013; 1:
571–582. (Impact Factor: 4.776, time
cited: 7).
28. Li, J.; Lin,
F.; Li, L.; Li, J.; Liu, S.*
Surface engineering of poly(ethylene
terephthalate) for durable hemocompatibility via a
surface interpenetrating network technique. Macromolecular
Chemistry and Physics, 2012;
213(20): 2120–2129. (Impact Factor: 2.492,
times cited: 15).
29. He, W.; Gu, X.;
Liu, S.* Surfactant-free One-Step Synthesis of
Dual-functional Polyurea Microcapsule: Contact
Infection Control and Drug Delivery. Advanced
Functional Materials, 2012; 22(19):
4023-31. (Impact Factor: 13.325, number of
citations: 16).
30. Li, L.; Pu,
T.; Zhanel,
G.G.; Zhao, N.; Ens, W.; Liu, S.* New
Biocide with Both N-Chloramine and
Quaternary Ammonium Salt Moieties Exerts Enhanced
Bactericidal Activity. Advanced Healthcare
Materials, 2012; 1(5): 609-620.
(Impact Factor: 5.609, times cited: 27).
31. Li, L.; Zhao,
N.; Liu,
S.* Versatile surface biofunctionalization of
poly(ethylene terephthalate) (PET) by
interpenetrating polymerization of a butynyl
monomer followed by “click” chemistry. Polymer
2012; 53(1): 67-78. (Journal Impact
Factor: 3.684, times cited: 32)
32. Zhao, N.; Logsetty,
S.; Liu, S.* Durability of amide N-chloramine
biocides to ethylene oxide sterilization. Journal
of Burn Care and Research, 2012;
33(4): e201-6 (2015 Journal Impact Factor: 1.923,
times cited: 2).
33. Zhao, N.; Liu,
S.* Thermoplastic semi-IPN of polypropylene (PP)
and polymeric N-halamine for efficient and
durable antibacterial activity. European
Polymer Journal, 2011; 47 (8):
1654-1663. (Impact Factor: 3.741, number
of citations: 33)
34. Zhao, N.;
Zhanel, G.G.; Liu, S.* Regenerability of
antibacterial activity of interpenetrating polymeric
N-halamine and poly(ethylene terephthalate).
Journal of Applied Polymer Science, 2011;
120(1): 611–622. (Impact Factor: 1.86,
number of citations: 34)
35. Rudenja, S.;
Zhao, N.;
Liu, S.* Surface Interpenetrating networks of
polyacrylamide in poly(ethylene terephthalate) as
a means of surface modification. European
Polymer Journal, 2010; 46(10):
2078-2084. (Impact Factor: 3.741, number
of citations: 17)
36. Liu, S.;*
Zhao, N.; Rudenja, S. Surface
interpenetrating networks of poly(ethylene
terephthalate) and polyamides for effective
biocidal property. Macromolecular Chemistry
and Physics, 2010; 211(3): 286-96.
(Impact Factor: 2.492, number of
citations: 41)
37. Liu, S.;
Sun, G.* New refreshable N-halamine
polymeric biocides: N-chlorination of
acyclic amide grafted cellulose. Industrial
& Engineering Chemistry Research, 2009;
48(2): 613-618. (Impact Factor: 3.141,
number of citations: 58)
38. Liu, S.;
Sun, G.* Functional modification of poly(ethylene
terephthalate) with an allyl monomer: chemistry
and structure characterization. Polymer 2008;
49(24): 5225-5232. (Impact Factor: 3.483,
number of citations: 40)
39. Liu, S.;
Sun, G.* Biocidal acyclic halamine polymers:
conversion of acrylamide-grafted-cotton to acyclic
halamine. Journal of Applied Polymer Science,
2008; 108(6): 3480-3486. (Impact
Factor: 1.86, number of citations: 20)
40. Liu, S.;
Sun, G.* Radical Graft Functional Modification of
Cellulose with Allyl Monomers: Chemistry and
Structure Characterization. Carbohydrate
Polymers, 2008; 71(4): 614-625.
(Impact Factor: 5.158, number of
citations: 79)
Cellulose. Industrial & Engineering Chemistry Research, 2006; 45: 6477-6482. (Impact
Factor: 3.141, number of citations: 124)