View a full publication list at Google Scholar.

To download the full text copy of the publications listed below, your institution must have a subscription with the respective publisher. You may also request a copy by emailing Dr. Schiffman.

§ Denotes authors that contributed equally to the work

mt3c01240_0004.webp
87. Living antimicrobial wound dressings: Using probiotic-loaded, alginate nanofibers for protection against methicillin-resistant Staphylococcus aureus
Diep, E. and Schiffman, J.D. ACS Applied Bio Materials (2024) 7, 2, 787–790 [Link]
pnas.2311396120fig01.jpg
86. Ring-opening metathesis polymerization of N-methylpyridinium-fused norbornenes to access antibacterial main-chain cationic polymers
Hancock, S.N., Yuntawattana, N.§, Diep, E.§, Maity, A., Tran, A., Schiffman, J.D., Michaudel, Q. PNAS (2023) 120(51) e231139612 [Link]
images_large_am3c11349_0008.jpeg
85. Stiffness and oligomer content affect the initial adhesion of Staphylococcus aureus to polydimethylsiloxane gels
Barajas, B., Kurtz, I.S., Waldman, A.J., Schiffman, J.D. ACS Applied Materials & Interfaces (2023) 15(45), 52197-52206 [Link]
images_medium_eg3c00044_0008.gif
84. Effect of pH value on the electrical properties of PEDOT:PSS-based fiber mats
Rathore, P. and Schiffman, J.D. ACS Engineering Au (2023) 3, 6, 527–536 [Link]
83-schiffman-pub-image.gif
83. Anionic polymerization and transport of diethyl methylidene malonate on polyolefin copolymer surfaces
Rehmann, K.M.S., Klier, J., Schiffman, J.D. Polymer Chemistry (2023) 14, 3695-3706 [Link]
82-Schiffman-pubs-images_medium_mt3c00371_0010.gif
82. Using catechol and zwitterion-functionalized copolymers to prevent dental bacterial adhesion
Sathyan, A.§, Kurtz, I.S.§, Rathore, P., Emrick, T., Schiffman, J.D. ACS Applied Bio Materials (2023) 6(7), 2905-2915 [Link]
81-schiffman-pub-images_medium_bm3c00274_0010.gif
81. Ethanol-free crosslinking of alginate nanofibers enable controlled release into a simulated gastrointestinal tract model
Diep, E. and Schiffman, J.D. Biomacromolecules (2023) 24(6), 2908-2917 [Link]
80-mt2c01055_0010.webp
80. Electrospinning living bacteria: A review of applications from agriculture to health care
Diep, E. and Schiffman, J.D. ACS Applied Bio Materials (2023) 6, 3, 951-964 [Link]
79-largecover.jpeg
79. ACS Applied Engineering Materials: A new journal for applied materials research
Schiffman, J.D. ACS Applied Engineering Materials (2023) 1(1), 1-2 [Link]
78-am2c14754_0011.webp
78. Improved recovery of captured airborne bacteria and viruses with liquid-coated air filters
Regan, D.P., Fong, C.; Bond, A.CS., Desjardins, C., Hardcastle, J., Hung, S.,-H., Holmes, A.P., Schiffman, J.D., Maginnis, M.S., Howell, C. ACS Applied Materials & Interfaces (2022) 14(45), 50543-50556 [Link]
77-ew2c00256_0007.webp
77. Nanopatterning reduces bacteria fouling in ultrafiltration
Ward, L.M.§, Shah, R.M.§, Schiffman, J.D., Weinman, S.T. ACS ES&T Water (2022) 2(9), 1593-1601 [Link]
76-am2c05844_0015.webp
76. Biofouling-resistant ultrafiltration membranes via co-deposition of dopamine and cetyltrimethylammonium bromide with retained size selectivity and water flux
Cihanoğlu, A., Schiffman, J.D., Altinkaya, S.A. ACS Applied Materials & Interfaces (2022) 14, 33, 38116-38131 [Link]
75-am2c08087_0012.webp
75. Aqueous, non-polymer-based perovskite quantum dots for bioimaging; Conserving fluorescence and long-term stability via simple and robust synthesis
Sanjayan, C.G., Jyothi, M.S., Balakrishna, R.G., Schiffman, J.D., Sakar, M., Budagumpi, S. ACS Applied Materials & Interfaces (2022) 14(34), 38471-38482 [Link]
74-ap1c01411_0006.webp
74. Linear viscoelasticity and time-alcohol superposition of chitosan/hyaluronic acid complex coacervates
Sun, J., Schiffman, J.D., Perry, S.L. ACS Applied Polymer Materials (2022) 4, 3, 1617-1625 [Link]
am1c20674_0008.png
73. Liquid-infused membranes exhibit stable flux and fouling resistance
Shah, R.M., Cihanoğlu, A., Hardcastle, J., Howell, C., Schiffman, J.D. ACS Applied Materials & Interfaces (2022) 14(4), 6148-6156 [Link]
image-72-schiffman.gif
72. Ultrasound-assisted dopamine polymerization: Rapid and oxidizing agent-free polydopamine coatings on membrane surfaces
Cihanoğlu, A., Schiffman, J.D., Altinkaya, S.A. Chemical Communications (2021) 57, 13740-13743 [Link]
image-71-images_medium_ie1c03051_0011.gif
71. Optimizing the packing density and chemistry of cellulose nanofilters for high-efficiency particulate removal
Hung, S., Bowden, J.W., Peltier, R., Schiffman, J.D. Industrial & Engineering Chemistry Research (2021) 60(43) 15720-15729 [Link]
70-am1c15415_0008.webp
70. Epoxy resin-encapsulated polymer microparticles for room-temperature cold sprayable coatings
Huang, M.§, Liu, Y.§, Khalkhali, Z., Kim, A., Hu, W., Lee, J-H., Rothstein, J.P., Klier, J., Schiffman, J.D. ACS Applied Materials & Interfaces (2021) 13, 42, 50358-50367 [Link]
image-69-images_medium_ie1c01332_0011.gif
69. Robust, small diameter hydrophilic nanofibers improve the flux of ultrafiltration membranes
Dobosz, K.M., Kuo-Leblanc, C.A., Bowden, M.E., Schiffman, J.D. Industrial & Engineering Chemistry Research (2021) 60(25), 9179-9188 [Link]
68-ma1c00397_0007.webp
68. Electrospinning fibers from oligomeric complex coacervates: No chain entanglements needed
Meng, X., Du, Y., Liu, Y., Coughlin, E.B., Perry, S.L., Schiffman, J.D. Macromolecules (2021) 54, 11, 5033-5042 [Link]
67-am1c03722_0007.webp
67. Memristive behavior of mixed oxide nanocrystal assemblies
Zhou, Z., Lopez-Dominguez, P., Abdullah, M., Barber, D., Meng, X., Park, J., Van Driessche, I., Schiffman, J.D., Crosby, A., Kittilstved, K., Nonnenmann, S.S. ACS Applied Materials & Interfaces (2021) 13(8), 21635-21644 [Link]
66-Get.gif
66. Encapsulating bacteria into alginate-based nanofibers
Diep, E. and Schiffman, J.D. Biomaterials Science (2021) 9, 4364-4373 [Link]
65-am0c17706_0015.webp
65. Beyond the single nozzle: Coaxial electrospinning enables innovative nanofiber chemistries, geometries, and applications
Rathore, P. and Schiffman, J.D. ACS Applied Materials & Interfaces (2021) 13, 1, 48-66 [Link]
1-s2.0-S1751616120307104-fx1.jpg
64. Localized characterization of brain tissue mechanical properties by needle induced cavitation rheology and volume controlled cavity expansion
Mijailovica, A.S., Galarza, S., Raayai-Ardakanic, S., Birch, N.P., Schiffman, J.D., Crosby, A.J., Cohen, T., Peyton, S.R., Van Vliet, J.J. Journal of the Mechanical Behavior of Biomedical Materials (2020) 104168 [Link]
63-es0c00451_0008.webp
63. Facile post-processing alters permeability and selectivity of microbial cellulose ultrafiltration membranes
Holland, M.C., Eggensperger, C.G., Giagnorio, M., Schiffman, J.D., Tiraferri, A., Zodrow, K.R. Environmental Science & Technology (2020) 54, 20, 13249-13256 [Link]
62-ie9b06618_0008.webp
62. High-performance, UV-curable crosslinked films via grafting of hydroxyethyl methacrylate methylene malonate
Huang, M., Liu, Y., Klier, J., Schiffman, J.D. Industrial & Engineering Chemistry Research (2020) 59(10), 4542-4548 [Link]
61-ez0c00019_0004.webp
61. Sustainable living filtration membranes
Eggensperger, C.G., Giagnorio, M., Holland, M.C., Dobosz, K.M., Schiffman, J.D., Tiraferri, A., Zodrow, K.R. Environmental Science & Technology Letters (2020) 7(3), 213-218 [Link]
60-mt9b00851_0008.webp
60. In vitro reconstitution of an intestinal mucus layer shows that cations and pH control the pore structure that regulates its permeability and barrier function
Sharma, A., Kwak, J-G., Kolewe, K.W., Schiffman, J.D., Forbes, N., Lee, J. ACS Applied Bio Materials (2020) 3(5), 2897-2902 [Link]
59-Get.gif
59. Programmable chemical switch based on triggerable michael acceptors
Zhuang, J., Zhao, B., Meng, X., Schiffman, J.D., Perry, S.L., Vachet, R.W., Thayumanavan, S. Chemical Science (2020) 11, 2103-2111 [Link]
58-an9b01942_0008.webp
58. Spatially organized nanopillar arrays dissimilarly affect the antifouling and antibacterial activities of Escherichia coli and Staphylococcus aureus
Heckmann, T.S. and Schiffman, J.D. ACS Applied Nano Materials (2020) 3(2), 977-984 [Link]
57-bm9b01072_0009.webp
57. Electrospinning nanofibers from chitosan/hyaluronic acid complex coacervates
Sun, J., Perry, S.L., Schiffman, J.D. Biomacromolecules (2019) 20(11), 4191-4198 [Link]
56-mt9b00543_0009.webp
56. Photodynamically active electrospun fibres for antibiotic-free infection control
Contreras, A. Raxworthy, M., Wood, S., Schiffman, J.D., Tronci, G. ACS Applied Bio Materials (2019) 2(10), 4258-4270 [Link]
55-mt9b00502_0007.webp
55. Bacteria-resistant, transparent, free-standing films prepared from complex coacervates
Kurtz, I.S.§, Shuo, S.§, Hao, X.§, Huang, M., Perry, S.L., Schiffman, J.D. ACS Applied Bio Materials (2019) 2(9), 3926-3933 [Link]
54-1-s2.0-S0009250919306529-ga1.jpg
54. Predicting the performance of pressure filtration processes by coupling computational fluid dynamics and discrete element methods
Li, B., Dobosz, K.M., Zhang, H., Schiffman, J.D., Saranteas, K., Henson, M.A. Chemical Engineering Science (2019) 208, 115162 [Link]
53-ap-2018-001359_0007.webp
53. Anionic polymerization of methylene malonate yields high performance coatings.
Huang, M., Yang, G., Liu, Y., Klier, J., Schiffman, J.D. ACS Applied Polymer Materials (2019) 1(4), 657-663 [Link]
52-am-2018-183023_0006.webp
52. Mechanical properties and concentrations of poly(ethylene glycol) in hydrogels and brushes direct the surface transport of Staphylococcus aureus.
Kolewe, K.W., Kalesin S., Shave, M., Schiffman J.D., Santore M.M. ACS Applied Materials & Interfaces (2019) 11(1), 320-330 [Link]
51-ie-2018-046988_0011.webp
51. Polymer particles with a low glass transition temperature containing thermoset resin enable powder coatings at room temperature
Yang, G., Xie, W., Huang, M., Champagne, V.K., Lee, J-H., Klier, J., Schiffman, J.D. Industrial & Engineering Chemistry Research (2019) (2), 908-916 [Link]
50-la-2018-021847_0009.webp
50. Antifouling ultrafiltration membranes with retained pore size by controlled deposition of zwitterionic polymers and poly(ethylene glycol)
Dobosz, K.M., Kuo-LeBlac, C.A., Emrick, T., Schiffman, J.D. Langmuir (2019) 35(5), 1872-1881 [Link]
49-ma-2018-01709c_0010.webp
49. Electrospinning cargo-containing polyelectrolyte complex fibers: Correlating molecular interactions to complex coacervate phase behavior and fiber formation
Meng, X., Schiffman, J.D., Perry, S.L. Macromolecules (2018) 51(21), 8821-8832 [Link]
48-pone.0204765.g001.png
48. Cross-platform mechanical characterization of lung tissue
Polio, S.R., Kundu, A.N., Dougan, C.E., Birch, N.P., Aurian-Blajeni, D.E., Schiffman, J.D., Crosby, A.J., Peyton, S.R. PloS ONE (2018) 13(10), e0204765 [Link]
47-gecko.jpeg
47. Gecko-inspired biocidal organic nanocrystals initiated from a pencil-drawn graphite template
Gonzalez Arellano, D.L.§, Kolewe, K.W.§, Champagne, V.K.§, Kurtz, I.S., Burnett, E.K., Zakashansky. J.A., Dundar Arisoy, F., Briseño, A., Schiffman, J.D. Scientific Reports (2018) 8, 11618 [Link]
46-materials-11-01059-ag.webp
46. Current and emerging approaches to engineer antibacterial and antifouling electrospun nanofibers
Kurtz, I.S. and Schiffman, J.D. Materials (2018) 11(7), 1059 [Link]
45-mt-2018-00001b_0006.webp
45. Fouling-resistant hydrogels prepared by the swelling-assisted infusion and polymerization of dopamine
Kolewe, K.W., Dobosz, K.M., Emrick, T., Nonnenmann, S.S., Schiffman, J.D. ACS Applied Bio Materials (2018) 1(1), 33-41 [Link]
44-am-2018-050664_0005.webp
44. Bioinspired photocatalytic shark skin surfaces with antibacterial and antifouling activity via nanoimprint lithography
Dundar, F., Kolewe, K.W., Homyak, B., Kurtz, I.S., Schiffman, J.D., Watkins, J.J. ACS Applied Materials & Interfaces (2018) 10(23), 20055-20063 [Link]
43-am-2017-12145t_0005.webp
43. Bacterial adhesion is affected by the thickness and stiffness of poly(ethylene glycol) hydrogels
Kolewe, K.W., Xhu, J., Mako, N., Nonnenmann, S.S., Schiffman, J.D. ACS Applied Materials & Interfaces (2018) 10(3), 2275-2281 [Link]
42-1-s2.0-S0925400517323201-fx1.jpg
42. Quantum dots as fluorescent probes: Synthesis, surface chemistry, energy transfer mechanisms, and applications
Chandan, H.R., Schiffman, J.D., Balakrishna, G. Sensors & Actuators: B. Chemical (2018) 258, 1191-1214 [Link]
41-la-2017-014312_0007.webp
41. Antifouling stripes prepared from clickable zwitterionic copolymers
Sae-ung, P., Kolewe, K.W., Bai, Y., Rice, E.W., Schiffman, J.D., Emrick, T., Hoven, V.P. Langmuir (2017) 33(28), 7028-7035 [Link]
40-ie-2017-00631f_0008.webp
40. Ultrafiltration membranes enhanced with electrospun nanofibers exhibit improved flux and fouling resistance
Dobosz, K.M., Kuo-LeBlac, C.A., Martin, T.J., Schiffman, J.D. Industrial & Engineering Chemistry Research (2017) 56(19), 5724-5733 [Link]
39-mz-2017-001738_0006.webp
39. Complex coacervation: Chemically stable fibers electrospun from aqueous polyelectrolyte solutions
Meng, X., Perry, S.L., Schiffman, J.D. ACS Macro Letters (2017) 6, 505-511 [Link]
38-am-2016-09839q_0006.webp
38. Antifouling electrospun nanofiber mats functionalized with polymer zwitterions
Kolewe, K.W.§, Dobosz, K.M.§, Rieger, K.A., Chang, C-C, Emrick, T., Schiffman, J.D. ACS Applied Materials & Interfaces (2016) 8(41), 27585-27593 [Link]
37-GA.gif
37. Graphene-based microfluidics for serial crystallography
Sui, S., Wang, Y., Kolewe, K.W., Srajer, V., Henning, R., Schiffman, J.D., Dimitrakopoulos, C., Perry, S.L. Lab on a Chip (2016) 16, 3082-3096 [Link]
36-materials-09-00297-ag.jpeg
36. Polyelectrolyte-functionalized nanofiber mats control the collection and inactivation of Escherichia coli
Rieger, K.A., Porter, M., Schiffman, J.D. Materials (2016) 9, 297 [Link]
35-1-s2.0-S0958946516300233-gr3.jpg
35. Preliminary study on mitigating steel reinforcement corrosion with bioactive agent
Jafferji, H., Sakulich, A.R., Schiffman, J.D. Cement and Concrete Composites (2016) 69, 9-17 [Link]
34-GA.gif
34. Transport of microorganisms into cellulose nanofiber mats
Rieger, K.A., Thyagarajan, R., Hoen M., Ford, D., Schiffman, J.D. RSC Advances (2016) 6, 24438-24445 [Link]
33-am-2015-101307_0007.webp
33. Antimicrobial activity of silver ion exchanged zeolites immobilized on cellulose nanofibers
Rieger, K.A.§, Cho, H.J§, Yeung, H., Fan, W, Schiffman, J.D. ACS Applied Materials & Interfaces (2016) 8(5), 3032-3040 [Link]
32-admi201500521-fig-0001-m.jpeg
32. Simultaneous deposition of zwitterionic polymer and polydopamine for hydrophilic and underwater superoleophobic surfaces
Chang, C-C., Kolewe, K.W., Li, Y., Kosif, I., Freeman, B.D., Carter, K., Schiffman, J.D., Emrick, T. Advanced Materials Interfaces (2016) 1500521, 1-9 [Link]
31-1-s2.0-S0144861715011637-fx1.jpg
31. Electrospinning chitosan/poly(ethylene oxide) solutions with immiscible oils: Correlating solution rheology to nanofiber formation
Rieger, K.A., Birch, N.P., Schiffman, J.D. Carbohydrate Polymers (2016) 139, 131-138 [Link]
30-am-2015-049576_0009.webp
30. Scaling up nature: Large area flexible biomimetic surfaces
Li, Y., John, J., Kolewe, K.W., Schiffman, J.D., Carter, K.R. ACS Applied Materials and Interfaces (2015) 7(42), 23439-23444 [Link]
29-am-2015-04269m_0006.webp
29. Fewer bacteria adhere to softer hydrogels
Kolewe, K.W., Peyton, S.R., Schiffman, J.D. ACS Applied Materials and Interfaces (2015) 7(35), 19562-19569 [Link]
28-1-s2.0-S1751616115002283-fx1.jpg
28. Mechanics of intact bone marrow
Jansen, L.E., Birch, N.P., Schiffman, J.D., Crosby, A.J., Peyton, S.R. Journal of the Mechanical Behavior of Biomedical Materials (2015) 50, 299-307 [Link]
27-bm-2015-004253_0009.webp
27. Thermal-responsive behavior of a cell compatible chitosan:pectin hydrogel
Birch, N.P., Barney, L.E., Pandres, E., Peyton, S.R., Schiffman, J.D. Biomacromolecules (2015) 16(6), 1837-1843 [Link]
image-26-fmicb-06-00196-g001.jpeg
26. Green materials science and engineering reduces biofouling: Approaches for medical and membrane-based technologies
Dobosz, K.M§, Kolewe, K.W.§, Schiffman, J.D. Frontiers in Microbiology (2015) 7:26 [Link]
25-app41739-fig-0003-m.jpeg
25. Encapsulation of Cinnamaldehyde into Nanostructured Chitosan Films
Rieger, K.A., Eagan, N.E., Schiffman, J.D. Journal of Applied Polymer Science (2015) 132, 41739 [Link]
24-1-s2.0-S0144861714006511-fx1.jpg
24. Electrospinning an essential oil: Cinnamaldehyde enhances the antimicrobial efficacy of chitosan/poly(ethylene oxide) nanofibers
Rieger, K.A. and Schiffman, J.D. Carbohydrate Polymers (2014) 113(1) 561-568 [Link]
23-la-2014-00491c_0007.webp
23. Characterization of self-assembled polyelectrolyte complex nanoparticles formed from chitosan and pectin
Birch, N.P. and Schiffman, J.D. Langmuir (2014) 30(12) 3441-3447 [Link]
22-GA.gif
22. Designing electrospun nanofiber mats to promote wound healing Ð A review
Rieger, K.A., Birch, N.P., Schiffman, J.D. Journal of Materials Chemistry B (2013) 1(36) 4531-4541 [Link]
image-21-10853_2013_7532_Fig2_HTML.webp
21. Phosphate salts facilitate the electrospinning of hyaluronic acid fiber mats
Brenner, E.K., Schiffman, J.D., Toth, L.J., Szewczyk, J.C., Schauer, C.L. Journal of Materials Science (2013) 48(22) 7805-7811 [Link]
image-20-10853_2013_7426_Fig7_HTML.webp
20. Crosslinked poly(allylamine) fibers electrospun from basic and acidic solutions
Schiffman, J.D.§, Kiechel, M.A.§, Donius, A.E., Wegst, U.G., Schauer, C.L. Journal of Materials Science (2013) 48(22) 7856-7862 [Link]
19-1-s2.0-S0011916412003906-gr5.jpg
19. Nanofibers in thin-film composite membrane support layers: Enabling expanded application of forward and pressure retarded osmosis
Hoover, L.A., Schiffman, J.D., Elimelech, M. Desalination (2013) 308, 73-81 [Link]
18-la-2012-03286v_0001.webp
18. Nanomanufacturing of biomaterials
Engel, Y.§, Schiffman, J.D.§, Goddard, J.D., Rotello, V.M. Materials Today (2012) 15(11) 80-87 [Link]
17-la-2012-03286v_0001.webp
17. Biodegradable polymer (PLGA) coatings featuring cinnamaldehyde and carvacrol mitigate biofilm formation
Zodrow, K.R., Schiffman, J.D., Elimelech, M. Langmuir (2012) 28(39) 13993-13999 [Link]
MS16.jpg
16. Electrospinning of hyaluronic acid nanofibers from aqueous ammonium solutions
Brenner, E.K., Schiffman, J.D., Thomson, E.S., Toth, L.J., Schauer, C.L. Carbohydrate Polymers (2012) 87(1) 926-929 [Link]
15-la-2011-02605z_0009.webp
15. Biocidal activity of plasma modified electrospun polysulfone mats functionalized with polyethyleneimine-capped silver nanoparticles
Schiffman, J.D., Wang, Y., Giannelis, E.P., Elimelech, M. Langmuir (2011) 27(21) 13159-13164 [Link]
14-am-2010-01043y_0002.webp
14. Antibacterial activity of electrospun polymer mats with incorporated narrow diameter single-walled carbon nanotubes
Schiffman, J.D. and Elimelech, M. ACS Applied Materials & Interfaces (2011) 3(2) 462-468 [Link]
13-1-s2.0-S0144861711000373-gr5.jpg
13. Carbon black immobilized in electrospun chitosan membranes
Schiffman, J.D., Blackford, A.C., Wegst, U.G.K., Schauer, C.L. Carbohydrate Polymers (2011) 84(4) 1252-1257 [Link]
12-es-2011-000062_0001.webp
12. Electrochemical multiwalled carbon nanotube filter for viral and bacterial removal and inactivation
Vecitis, C.D., Schnoor, M., Rahaman, M.S., Schiffman, J.D., Elimelech, M., Environmental Science & Technology (2011) 45 (8) 3672-3679 [Link]
11-es-2010-04325z_0005.webp
11. Thin-film composite pressure retarded osmosis membranes for sustainable power generation from salinity gradients
Yip, N.Y., Tiraferri, A., Phillip, W.A., Schiffman, J.D., Hoover, L.A., Kim, Y.C., Elimelech, M. Environmental Science & Technology (2011) 45(10) 4360-4369 [Link]
image-10-1-s2.0-S0376738810008677-fx1.jpg
10. Relating performance of thin-film composite forward osmosis membranes to support layer structure and formation
Tiraferri, A., Yip, N.Y., Phillip, W.A., Schiffman, J.D., Elimelech, M. Journal of Membrane Science (2011) 367, 340-352 [Link]
image-9-images_medium_es-2010-002555_0003.gif
9. High performance thin-film composite membrane for forward osmosis desalination
Yip, N.Y., Tiraferri, A., Phillip, W.A., Schiffman, J.D., Elimelech, M. Environmental Science & Technology (2010) 44(10) 3812-3818 [Link]
8. Chitin and chitosan: Transformations due to the electrospinning process
Schiffman, J.D., Stulga, L.A., Schauer, C.L. Polymer Engineering and Science (2009) 49(10) 1918-1928 [Link]
7-GA.gif
7. Piezoelectric response of the Greta oto wing
Binetti, V.E., Schiffman, J.D., Leafer, O.D., Spanier, J.E., Schauer, C.L. Integrative Biology (2009) 1(3) 324-329 [Link]
6-1-s2.0-S0928493108003421-gr4.jpg
6. Solid state characterization of _-chitin from Vanessa cardui Linnaeus wings
Schiffman, J.D. and Schauer, C.L. Materials Science and Engineering, C: Biomimetic and Supramolecular Systems (2009) 29(4) 1370-1374 [Link]
5-bm-2008-00835e_0002.webp
5. Carboxymethyl chitosan as a matrix material for platinum, gold, and silver nanoparticles
Laudenslager, M.L., Schiffman, J.D., Schauer, C.L. Biomacromolecules (2008) 9(10) 2682-2685 [Link]
4-la-2008-00911x_0005.webp
4. Controllable formation of nano-scale patterns on TiO2 by conductive-AFM nanolithography
Garipcan, B., Winters, J., Atchison, J.S., Cathell, M., Schiffman, J.D., Leaffer, O.D., Nonnenmann, S.S., Schauer, C.L., Pikin, E., Nabet, B., Spanier, J.E. Langmuir (2008) 24(16) 8944-8949 [Link]
3. A review: Electrospinning of biopolymer nanofibers and their applications
Schiffman, J.D. and Schauer, C.L. Polymer Reviews (2008) 48(2) 317-352 [Link]
2-bm7006983n00001.webp
2. One-step electrospinning of cross-linked chitosan nanofibers
Schiffman, J.D. and Schauer, C.L. Biomacromolecules (2007) 8(9) 2665-2667 [Link]
1-bm060804sn00001.webp
1. Cross-linking chitosan nanofibers
Schiffman, J.D. and Schauer, C.L. Biomacromolecules (2007) 8(2) 594-601 [Link]