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2018 Annual Report
The Research Service Centers (RSC) comprise state-of-the-art userfacilities which enable the fabrication of nanoscale devices and the characterization of materials, particles, and structures from the nanoscale to the macroscale. Managed by the Herbert Wertheim College of Engineering, these facilities support and enhance the research, education, and public service mission of the University ofFlorida by providing the university community with unique capabilities that can lead to scientific and engineering breakthroughs when combined with the creativity of faculty and students. The research impacts span many diverse areas ranging from fabrication of nanopore arrays on polytetrafluroethylene for improved heat transfer in advanced electronic systems to materials characterization of
biocompatible biodegradable alloys for biomedical applications to development of an ultra-low power magnetic field sensor using magnetoelectric nanowires for industrial applications. The annual report quantifies the impact of the RSCs on scholarly research and the research enterprise. In the past year, faculty users have published 151 journal papers based on work conducted in the RSCs. Contracts and grants totaling $116+ M, in fiscal year 2018, were directly impacted by the RSC. In addition, the number of users from external organizations including companies, government agencies, and other universities continues to increase. The RSCs also benefit workforce development. Under the supervision of staff experts, students gain valuable experience using state-of-the-art equipment and transferable skills. I would like to thank Dr. Forrest Masters for his leadership of the RSCs. Plans for the coming year include the addition of new capabilities and instrumentation. We welcome new users and feedback from all. Thank you for your support of the RSCs.
Toshi Nishida, Ph.D.Professor and Associate Dean for Academic Affairs
This past year the Herbert Wertheim College of Engineering Research Service Centers supported a significant number of research efforts of engineering faculty and students, as well as research activities in other six colleges and two museums at the University of Florida. Collaborations with other universities in the state university system as well as with local industry also benefited from the access and services that the Research Service Centers provides for materials characterization and analysis, as well as nano-and microfabrication requiring clean room facilities. Service and training on a new Autosorb instrument for surface area and porosity analysis were incorporated to the facilities.
We also started a Research Showcase and Open House annual program that included a poster exhibit, facility tours and instrument demonstrations. Best posters were recognized in the areas of characterization and fabrication. The Research Service Center’s facilities were also promoted at professional meetings in the state of Florida, in national meetings across the country: the Southeastern Microscopy Society (SEMS), the Universities, Government, Industry and Micro / Nanoelectronics Conference (UGIM), Nano Florida, Florida American Vacuum Society (FLAVS), and Miniaturized Systems for Chemistry and Life Sciences (Micro TAS).We are all looking forward to continue providing this year training, service and teaching activities to the benefit of our academic and industrial community.
Luisa Amelia Dempere. Ph.D.Engineer and RSC Director
Table of Content 2
RSC by the Numbers……………………………………… 3
PI users at the University of Florida……………….. 5
External Academic Users……………………………….. 5
Characterization Instrumentation………………….. 6
Fabrication Instrumentation…………………………… 7
RSC Metrics and Demographics……………………… 8
Research Highlights………………………………….…… 11
Publications in Journals………………………………... 15
3
UF USERS
7 COLLEGES
2 MUSEUMS
33 DEPARTMENTS
137 PRINCIPALINVESTIGATORS
FACILITIES
37+ CHARACTERIZATIONINSTRUMENTS AND TECHNIQUES
7500 sq. ft. of CLASS 100 – 1000 CLEANROOM
36+ NANO/MICRO FABRICATION TOOLS
IMPACT OF RSCs ON UF RESEARCH EXPENDITURES AND F&A
$116M+ TOTAL AMOUNT OF UF C&G THAT USE RSCs
$55M+ TOTAL AMOUNT OF F&A GENERATED
129+ PUBLICATIONS
EXTERNAL USERS
37 INDUSTRIAL/COMMERCIAL
12 OTHER UNIVERSITIES
4
P.I. Users at the University of Florida
External Academic UsersArkansas State University Florida State University University of Central FloridaAuburn University Idaho National Laboratory University of South Florida
City University of New York National High Magnetic Field Laboratory Utah State University
Florida International University University of California, Berkeley Virginia Tech
5
Agricultural and Life Sciences Engineering Liberal Arts and SciencesEntomology & Nematology Materials Science & Engineering PhysicsBranham, Marc Dempere, Luisa Amelia Meisel, MarkHulcr, Jiri Fuchs, Gerhard Rinzler, AndrewLucky, Andrea Gower, Laurie Stewart, GregoryPatterson, William Holloway, Paul AstronomySoil & Water Science Jones, Kevin Eikenberry, StephenCano Mogrovejo, Liliana Manuel, Michele Geological SciencesHarris, Willie Nino, Juan Perfit, MichaelHorticultural Sciences Rudawski, Nicholas BiologyFisher, Paul Ruzycki, Nancy Jacobson, LiannePaul, Annalisa Sigmund, Wolfgang Whitten, WilliamPerez, Hector Webb, Antonio MedicineMicrobiology & Cell Science Winfrey, Leigh AnesthesiologyKelley, Karen Xue, Jiangeng Parrish, KathyMaupin, Julie Mechanical & Aerospace Engineering NeurosurgeryVermerris, Willem Aifantis, Katerina Sayour, EliasIFAS Balachandar, Sivaramakrishnan MedicineWildlife Ecology and Conservation Fan, Zhonghui Bova, FrankFrederick, Peter Greenslet, Hitomi PediatricsTaylor, Lisa Moghaddam, Saeed Chandran, VijayendranEngineering Scheffe, Jonathan Molecular Genetics and MicrobiologyAgricultural & Biological Engineering Simmons, Chelsey Cohn, MartinGao, Bin Subhash, Ghatu Wang, EricMclamore, Eric Particle Engineering Research Center OtolaryngologyTong, Zhaohui Moudgil, Brij Antonelli, PatrickBiomedical Engineering Industrial and Systems Engineering Ojano, CarolynArce, Stephen Stanfill, R PhysiologyDobson, Jon Engineering School of Sustainable Kasahara, HidekoKeselowsky, Benjamin Infrastructure and Enviroment Oh, SukMcfetridge, Peter Civil and Costal Engineering Harn MuseumMenon, Kannan Angelini, Christine Steuber, JasonOtto, Kevin Ferraro, Christopher Florida Museum of Natural HistorySchmidt, Christine Tia, Mang Blackburn, DavidStabler, Cherie Townsend, Timothy Bloch, JonathanChemical Engineering Wasman, Scott Cellinese, NicolettaChauhan, Anuj Environmental Engineering Sciences Emery, KatherineHagelin-Weaver, Helena Mazyck, David Jones, KarenJiang, Peng McVay, Michael Kawahara, AkitoKopelevich, Dmitry Liberal Arts and Sciences Macfadden, BruceLele, Tanmay Antropology Manchester, StevenNarayanan, Ranganatha Daegling, David Naylor, GavinRen, Fan Deleon, Valerie Page, LarryRinaldi, Carlos Fladeboe, Randee Portell, RogerZiegler, Kirk Krigbaum, John Reed, DavidElectrical & Computer Engineering Chemistry Slapcinsky, JohnArnold, David Angerhofer, Alexander Steadman, DavidAsadi zanjani, Navid Bowers, Clifford DentistryForte, Domenic Cao, Charles EndodonthicsJudy, Jack Martin, Charles Pileggi, RobertaKoppal, Sanjeev Mcelwee-white, Lisa Dental BiomaterialsNishida, Toshikazu Sumerlin, Brent Esquivel-upshaw, JosephineSheplak, Mark Talham, Daniel Restorative Dental SciencesTabrizian, Roozbeh Tan, Weihong Geraldeli, SauloXie, Huikai Veige, Adam Roulet, Jean-francoisYoon, Yong Wei, David Oral BiologyMaterials Science & Nuclear Engineering Physics Brady, LindaAitkaliyeva, Assel Biswas, Amlan Burne, RobertAllen, Josephine Hagen, Stephen Wallet, ShannonAndrew, Jennifer Hamlin, James PharmacyBatich, Christopher Hebard, Arthur PharmaceuticsBrennan, Anthony Lee, Yoonseok Hochhaus, Guenther
Electron Microscopy• SX Five Field Emission Electron Probe MicroAnalysis (EPMA)• Helios NanoLab 600 Dual Beam Focused Ion Beam • Field Emission Scanning Electron Microscope - Nova 430• Scanning Electron Microscope - S-3000 Variable Pressure• Scanning Electron Microscope - MIRA3• Transmission Electron Microscope - Tecnai F20 S/TEMMetrology• Optical Profilometer• Ellipsometer, • Profilometer, Alfa Step 500• Optical Microscope - BX60 with SPOT Insight Digital CameraParticle Analysis/Characterization• Thermo Gravimetric Analyzer• Rheometer - ARES LS1• ZetaPlus – Particle Charge Analysis• Acoustosizer Iis – Particle Size Analysis• Coulter LS13320 - Particle Size Analysis• Coulter Multisizer III - Particle Size Analysis• Microtrac Nanotrac• Electro Kinetic Analyzer• Particle Size Distribution 3603 (Aerosizer)• Zeta ReaderPorosimetry/Porometry/Surface Area• PoreMaster Mercury Porosimeter• Porometer 3g zh• Ultrapyc 1000 Gas Pycnometer• Autosorb iQ - AnalysisSample Preparation• Freeze DryerSpectroscopy• FTIR/FT-Raman/FTIR Microscope • microRaman• Energy Dispersive Spectroscopy (EDS)• Cathodoluminescence (CL)Surface Analysis/Characterization• PHI 660 – Auger Electron Spectroscopy (AES)• Atomic Force Microscope - Dimension 3100• X-Ray Photoelectron Spectroscopy - 5100 XPS System• X-Ray Photoelectron Spectroscopy - ULVAC-PHI XPSX-Ray Analysis/Characterization• Nano-CT - v|tome|x m 240 X-Ray Tomography• Nano-CT Image Processing/Reconstruction System• XPert – X-Ray Diffraction• XPert Powder – X-Ray Diffraction
Characterization Instrumentation6
3D Printing• Objet 3D PrinterDicing/Bonding• Dicing Saw - ADT• Wire Bonder, Gold Ball & Wedge Bonder – K&SFilm Deposition• Atomic Layer Deposition (ALD) – FIJI 200• E-beam evaporator, PVD• Plasma Enhanced Chemical Vapor Deposition (PECVD) - STS & Unaxis• Parylene Coater - SCS• Sputter Deposition – KJL Multi CMS 18Hot Processing• Furnace Tube, General Hot Process• Furnace Tube, wet and dry oxide - Tystar• Rapid Thermal Anneal (RTA), Solaris 150 • RTA, 100CS RTP - Steag• Wafer Bonder, EVG 501Metrology• 4 Point Probe Station - Veeco• Hall-Effect Measurements – Lake Shore• Wafer Bow Laser Scanner – Flexus• Optical Microscope – Nikon & Zeiss• Photospectrometer, Filmetrics F40• Profilometer, Dektak 150• Scanning Electron Microscopy - JSM 5700Photolithography• Heidelberg Laser Writer• Litho Process Spinner , Hot plates• Contact Lithography – Karl Suss & EVG(BSA)• Oven, YES, Image Reversal• Raith 150, E-beam lithographyWet Processing• Chemical Bench – RCA Process• Critical Point Dryer - Tousimis• General Acids/Bases Bench• Solvent BenchesPlasma• Asher - Anatech SCE600 & Tepla M4L• Deep RIE – STS & Oxford• Inductively Coupled Plasma (RIE/ICP) Unaxis SLR, Trion RIE/ICP• RIE - Unaxis 790 Other • Raith ionLiNE - multi-species Focused Ion Beam• Wenesco Hotplate• Spin Dryer - Sitek
Fabrication Instrumentation7
Supporting active UF research projects totaling $116+ million in external funding.
166
62
22
8 4
Research Awards Supported in Millions of $ ($116+M)
Agriculture and Natural Resources College of Dentistry
College of Engineering College of Liberal Arts and Sciences
College of Medicine Florida Museum of Natural History
8 3
32
11
1.5 0.2
F&A Generated by Research Awards Supported in Millions of $ (≈ $55M)
8
51%
2%
47%
RSC Percentage Income by Center
MAIC PAIC NRF
35%
65%
Research Services Effort Distribution
External Internal
9
10
1% 1%
14%
43%
1%
30%
9%
College of Engineering
Agricultural & Biological Engineering
Biomedical Engineering
Chemical Engineering
Electrical and Computer Engineering
ESSIE
Materials Science & Nuclear Engineering
Mechanical & Aerospace Engineering
3% 1%
73%
10%12%
1%
RSC Usage by College
Agricultural and Life Sciences Dentistry
Engineering Florida Museum of Natural History
Liberal Arts and Sciences Medicine
Research Highlights
https://rsc.aux.eng.ufl.edu/_files/documents/2659.pdf
https://rsc.aux.eng.ufl.edu/_files/documents/2660.pdf
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https://rsc.aux.eng.ufl.edu/_files/documents/2661.pdf
https://rsc.aux.eng.ufl.edu/_files/documents/2662.pdf
https://rsc.aux.eng.ufl.edu/_files/documents/2663.pdf
12
https://rsc.aux.eng.ufl.edu/_files/documents/2664.pdf
https://rsc.aux.eng.ufl.edu/_files/documents/2667.pdf
13
https://rsc.aux.eng.ufl.edu/_files/documents/2665.pdf
https://rsc.aux.eng.ufl.edu/_files/documents/2666.pdf
14
Publications 15
1. Allison Goins, Vidhya Ramaswamy, Elliott Dirr, Krista Dulany, Sean Irby, Antonio Webb, Josephine Allen, Biomedical Materials, 13 (1) pp 015002, 2017.
2. Dawn M Elliott, Kyle Allen, Journal of Biomechanical Engineering 139 (11), pp 110301, 2017.
3. Xiao Wen, Jennifer S. Andrew, David P. Arnold, AIP Publishing, 7 (5), pp 056225, 2017.
4. Bryan L Chavez, Kevin C Sosnowski, Matthew J Bauer, Maeve AK Budi, Jennifer S Andrew, Thomas M Crawford, AIP Publishing, 8 (5), pp 056808, 2017.
5. Sinead M Crotty, Christine Angelini, Mark D Bertness, PloS one 12 (8), pp. e0183058, 2017.
6. Emily P Persico, Sean J Sharp, Christine Angelini, Marine Ecology Progress Series, 580, pp. 57-68, 2017.
7. Amy K Langston, David A Kaplan, Christine Angelini, Hydrobiologia, 803 (1), pp. 317-331, 2017.
8. Thomas M Pettengill, Sinéad M Crotty, Christine Angelini, Mark D Bertness, Oecologia, 186 (3), pp. 621-632, 2018.
9. Kyle D Schulze, Samuel M Hart, Samantha L Marshall, Christopher S O'Bryan, Juan M Urueña, Angela A Pitenis, W Gregory Sawyer, Thomas E Angelini, Biotribology, 11, pp. 3-7, 2017.
10. Tapomoy Bhattacharjee, Christopher P Kabb, Christopher S O’Bryan, Juan M Urueña, Brent S Sumerlin, W Gregory Sawyer, Thomas E Angelini, Soft Matter, 14 (9), pp. 1559-1570, 2018.
11. Jacob Ewing, Yuzheng Wang, David P Arnold, AIP Advances, 8 (5), pp. 056711, 2018.
12. Luiz F Ribeiro, David C Blackburn, Edward L Stanley, Marcio R Pie, Marcos R Bornschein, PeefJ, 5, pp e3606, 2017. Luis MP Ceríaco, Mariana P Marques, Suzana Bandeira, Ishan Agarwal, Edward L Stanley, Aaron M Bauer, Matthew P Heinicke, David C Blackburn, ZooKeys, 780, pp 109, 2018.
13. Lida Xing, Edward L Stanley, Ming Bai, David C Blackburn, Scientific Reports, 8 (1), pp 8770, 2018.
16
14. Binjie Xu, Qiuhua Wei, M Ryan Mettetal, Jie Han, Lindsey Rau, Jinfeng Tie, Rhea M May, Eric T Pathe, Shravanthi T Reddy, Lauren Sullivan, Albert E Parker, Donald H Maul, Anthony B Brennan, Ethan E Mann, Journal of Medical Microbiology, 66 (11), pp. 1692-1698, 2017.
15. Sarah A Johnson, Sean M Turner, Lindsay A Santacroce, Katelyn N Carty, Leila Shafiq, Jennifer L Bizon, Andrew P Maurer, Sara N Burke, Hippocampus, 27 (7), pp.759-776, 2017.
16. Abbi R Hernandez, Caesar M Hernandez, Keila T Campos, Leah M Truckenbrod, Yasemin Sakarya, Joseph A McQuail, Christy S Carter, Jennifer L Bizon, Andrew P Maurer, Sara N Burke, Rafael de Cabo, The Journals of Gerontology: Series A, 73 (4), pp. 450-458, 2017.
17. Enrique J Cobos, Chelsea A Nickerson, Fuying Gao, Vijayendran Chandran, Inmaculada Bravo-Caparrós, Rafael González-Cano, Priscilla Riva, Nick A Andrews, Alban Latremoliere, Corey R Seehus, Gloria Perazzoli, Francisco R Nieto, Nicole Joller, Michio W Painter, Chi Him Eddie Ma, Takao Omura, Elissa J Chesler, Daniel H Geschwind, Giovanni Coppola, Manu Rangachari, Clifford J Woolf, Michael Costigan, Cell Reports, 22 (5), pp 1301-1312, 2018.
18. Yash Kapoor, Phillip Dixon, Poorvajan Sekar, Anuj Chauhan, European Journal of Pharmaceutics and Biopharmaceutics, 120, pp. 73-79, 2017.
19. Kuan-Hui Hsu, Karishma Gupta, Harish Nayaka, Aashrit Donthi, Siddarth Kaul, Anuj Chauhan, Pharmaceutical Research, 34 (12), pp. 2862-2872, 2017.
20. Phillip Dixon, Richard C Fentzke, Arnab Bhattacharya, Aditya Konar, SarbaniHazra, Anuj Chauhan, International Journal of Pharmaceutics, 544 (2), pp. 380-391, 2018.
21. James Everett, Vindy Tjendana Tjhin, Jake Brooks, Frederik Lermyte, Ian Hands-Portman, Jon Dobson, Joanna Collingwood, Neil Telling, Microscopy and Microanalysis, 24 (S2), pp 490-491, 2018.
22. Maohua Pan, Tania S Bonny, Julia Loeb, Xiao Jiang, John A Lednicky, ArantzazuEiguren-Fernandez, Susanne Hering, Z Hugh Fan, Chang-Yu Wu, mSphere, 2 (5), pp. e00251-17, 2017.
23. Haoran Yu, Nima Afshar-Mohajer, Alexandros D Theodore, John A Lednicky, Z Hugh Fan, Chang-Yu Wu, Journal of Aerosol Science, 117, pp. 74-84, 2018.
24. Fahim Rahman, Bicky Shakya, Xiaolin Xu, Domenic Forte, Mark Tehranipoor, IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2017.
1725. Shugang Zhang, Yuechao Yang, Bin Gao, Yuncong C Li, Zhiguang Liu, Journal of
Materials Chemistry A, 5 (37), pp. 19943-19953, 2017.
26. June Fang, Lu Zhan, Yong Sik Ok, Bin Gao, Journal of Industrial and Engineering Chemistry, 2017.
27. Shengsen Wang, Yanxia Zhou, Bin Gao, Xiaozhi Wang, Xianqiang Yin, Ke Feng, Jun Wang, Chemosphere, 186, pp. 495-500, 2017.
28. Xueyang Zhang, Bin Gao, Yulin Zheng, Xin Hu, Anne Elise Creamer, Michael D Annable, Yuncong Li, Bioresource Technology, 245, pp. 606-614, 2017.
29. Bing Wang, Bin Gao, Yongshan Wan, Journal of Industrial and Engineering Chemistry, 61, pp. 161-168, 2018.
30. Fang Yu, Yanmei Zhou, Kunxia Cao, Wenli Gao, Bin Gao, Li Sun, Shengjian Liu, Lin Wang, Yanting Ding, Chemosphere Pages, 196, pp. 331-338, 2018.
31. Shengsen Wang, Yanxia Zhou, Shuwen Han, Nong Wang, Weiqin Yin, XianqiangYin, Bin Gao, Xiaozhi Wang, Jun Wang, Chemosphere, 197, pp. 20-25, 2018.
32. Zahoor Ahmad, Bin Gao, Ahmed Mosa, Haowei Yu, Xianqiang Yin, Asaad Bashir, Hossein Ghoveisi, Shengsen Wang, Journal of Cleaner Production, 180, pp. 437-449, 2018.
33. Anne Elise Creamer, Bin Gao, Andrew Zimmerman, Willie Harris, Chemical Engineering Journal, 334, pp. 81-88, 2018.
34. Honghong Lyu, Bin Gao, Feng He, Andrew R Zimmerman, Cheng Ding, Hua Huang, Jingchun Tang, Environmental Pollution, 233, pp. 54-63, 2018.
35. Shunli Wan, Jiayu Wu, Shanshan Zhou, Rui Wang, Bin Gao, Feng He, Science of The Total Environment, 616, pp. 1298-1306, 2018.
36. Bing Wang, Bin Gao, Andrew R Zimmerman, Yulin Zheng, Honghong Lyu, Journal of Environmental Management, 209, pp. 105-111, 2018.
37. Anne Elise Creamer, Bin Gao, Andrew Zimmerman, Willie Harris, Chemical Engineering Journal, 334, pp. 81-88, 2018.
38. Brian Wingender, Yongliang Ni, Yifan Zhang, Curtis Taylor, Laurie Gower, Materials, 11 (7), pp 1257, 2018.
39. Joe Cianfrone, Siddhartha Ghosh, Seonhoo Kim, Kyeong-Won Kim, Arthur F Hebard, David Norton, Physica Status Solidi, 214 (6), pp 1600707, 2017.
1840. Qunying Zeng, Zhongwei Xu, Congxiu Zheng, Yang Liu, Wei Chen, Tailiang Guo,
Fushan Li, Chaoyu Xiang, Yixing Yang, Weiran Cao, Xiangwei Xie, Xiaolin Yan, Lei Qian, Paul H Holloway, ACS applied materials & interfaces, 10 (9), pp. 8258-8264, 2018.
41. You Li, Yongying Ruan, Matthew T Kasson, Edward L Stanley, Conrad PDT Gillett, Andrew J Johnson, Mengna Zhang, Jiri Hulcr, Journal of Insect Science, 18 (5), pp 13, 2018.
42. Sin-Yen Leo, Yongliang Ni, Can Xu, Yifan Zhang, Yuqiong Dai, Pengxu Qi, Angela T Xie, Vito Basile, Curtis Taylor, Peng Jiang, Advanced Functional Materials, 27 (41), pp. 1703522, 2017.
43. Sin-Yen Leo, Wei Zhang, Yifan Zhang, Yongliang Ni, Helena Jiang, Cory Jones, Peng Jiang, Vito Basile, Curtis Taylor, Small, 14 (12), pp. 1703515, 2018.
44. George Baure, Hanhan Zhou, Ching-Chang Chung, Mariia A Stozhkova, Jacob L Jones, Juan C Nino, Acta Materialia, 133, pp. 81-89, 2017.
45. George Baure, Hanhan Zhou, Ching-Chang Chung, Marissa N Buck, Mariia A Stozhkova, Jacob L Jones, Juan C Nino, Acta Materialia, 147, pp. 10-15, 2018.
46. Thomas P Martin, KS Jones, Renata A Camillo-Castillo, Christopher Hatem, Yan Xin, Robert G Elliman, Journal of Materials Science, 52 (17), pp. 10387-10392, 2017.
47. EL Kennon, T Orzali, Y Xin, A Vert, AG Lind, KS Jones, Journal of Materials Science, 52 (18), pp. 10879-10885, 2017.
48. John E Rogers, Yong-Kyu Yoon, Mark Sheplak, Jack W Judy, Journal of Microelectromechanical Systems, 27 (1), pp 73-85, 2018.
49. Benjamin S Spearman, Vidhi H Desai, Sahba Mobini, Matthew D McDermott, James B Graham, Kevin J Otto, Jack W Judy, Christine E Schmidt, Advanced Functional Materials, 28 (12), pp 1701713, 2018.
50. Qi Yang, Hyunsu Park, Tran NH Nguyen, Jeffrey F Rhoads, Albert Lee, R Timothy Bentley, Jack W Judy, Hyowon Lee, Sensors and Actuators B: Chemical, 273, pp 1694-1704, 2018.
51. Jonathan J Cho, Joshua M Stewart, Theodore T Drashansky, Maigan A Brusko, Ashley N Zuniga, Kyle J Lorentsen, Benjamin G Keselowsky, Dorina Avram, Biomaterials, 143, pp. 79-92, 2017.
52. Lawrence P Fernando, Jamal S Lewis, Brian C Evans, Craig L Duvall, Benjamin G Keselowsky, Journal of Biomedical Materials Research Part A, 106 (4), pp. 1022-1033, 2018.
19
53. Shaheen A Farhadi, Evelyn R Bracho-Sanchez, Sabrina L Freeman, Benjamin Keselowsky, Gregory A Hudalla, Bioconjugate Chemistry, 29 (3), pp. 649-656, 2017.
54. Jodi M Scott-Fiorenzano, Alice P Fulcher, Kelly E Seeger, Sandra A Allan, Daniel L Kline, Philip G Koehler, Günter C Müller, Rui-De Xue, Parasites & vectors, 10 (1), pp. 9, 2017.
55. Tunwadee Klong-Klaew, Narin Sontigun, Sangob Sanit, Chutharat Samerjai, KomSukontason, Hiromu Kurahashi, Philip G Koehler, Roberto M Pereira, KwankamolLimsopatham, Suttida Suwannayod, Sa-nguansak Thanapornpoonpong, Theeraphap Chareonviriyaphap, Kabkaew L Sukontason, Acta Tropica, 176, pp. 68-77, 2017.
56. B Yang, L Zhou, X Zhang, S Koppal, H Xie, Optical MEMS and Nanophotonics(OMN), 2017 International Conference on, pp. 1-2, 2017.
57. Steven R Manchester, Kathleen B Pigg, Melanie L Devore, Fossil Imprint, 74, pp 49-54, 2018.
58. Steven R Manchester, Kathleen B Pigg, Zlatko Kvaček, Melanie L DeVore, Richard M Dillhoff, International Journal of Plant Sciences, 179 (8), pp 663-676, 2018.
59. Ida S Berglund, Elliott W Dirr, Vidhya Ramaswamy, Josephine B Allen, Kyle D Allen, Michele V Manuel, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 106 (2), pp. 697-704, 2018.
60. Abbi R Hernandez, Caesar M Hernandez, Keila T Campos, Leah M Truckenbrod, Yasemin Sakarya, Joseph A McQuail, Christy S Carter, Jennifer L Bizon, Andrew P Maurer, Sara N Burke, Rafael de Cabo, The Journals of Gerontology: Series A, 73(4), pp. 450-458, 2017.
61. F Ferreira da Silva, R Thorman, H Lu, L McElwee-White, O Ingólfsson, Journal of Physics: Conference Series, 875 (7), pp. 062035, 2017.
62. Andrea M Matuska, M Franklin Dolwick, Peter S McFetridge, Journal of Materials Science: Materials in Medicine, 29 (10), pp 152, 2018.
63. Ismail Ocsoy, Ayse Demirbas, Eric S McLamore, Berrak Altinsoy, Nilay Ildiz, AyseBaldemir, Journal of Molecular Liquids, 238, pp. 263-269, 2017.
64. A Demirbas, K Groszman, M Pazmiño-Hernandez, DC Vanegas, B Welt, JA Hondred, NT Garland, JC Claussen, ES McLamore, Biotechnology Progress, 34 (1), pp. 206-217, 2018..
20
65. Ismail Ocsoy, Sadi Yusufbeyoglu, Vedat Yılmaz, Eric S McLamore, Nilay Ildız, Ahmet Ülgen, Colloids and Surfaces B: Biointerfaces, 159, pp. 16-22, 2017.
66. Suli Yan, Chunyang Jiao, Eric S McLamore, Ningning Wang, Hongjun Yao, YingbaiShen, Journal of Plant Growth Regulation, 36 (4), pp. 846-854, 2017.
67. Katherine D Hills, Daniela A Oliveira, Nicholas D Cavallaro, Carmen L Gomes, Eric S McLamore, Analyst, 143 (7), pp. 1650-1661, 2018.
68. Abdolreza Fazeli, Saeed Moghaddam, Scientific Reports, 7 (1), pp. 5184, 2017.
69. Devesh Chugh, Kyle Gluesenkamp, Omar Abdelaziz, Saeed Moghaddam, Applied Energy, 202, pp. 746-754, 2017.
70. Sajjad Bigham, Saeed Moghaddam, Journal of Heat Transfer, 139 (11), pp. 111503, 2017.
71. Chang Peng, Ayyoub M Momen, Saeed Moghaddam, Energy, 138, pp. 133-138, 2017.
72. Mehdi Mortazavi, Abdolreza Fazeli, Saeed Moghaddam, Journal of Micromechanics and Microengineering, 28 (1), pp. 015001, 2017.
73. Glen Walters, Aniruddh Shekhawat, Nicholas G Rudawski, Saeed Moghaddam, Toshikazu Nishida, Applied Physics Letters, 112 (19), pp 192901, 2018.
74. Heui C Lee, Janak Gaire, Seth W Currlin, Matthew D McDermott, Kinam Park, Kevin J Otto, Frontiers in Neuroscience 11, 513, 2017.
75. Dong-Wook Park, Jared P Ness, Sarah K Brodnick, Corinne Esquibel, Joseph Novello, Farid Atry, Dong-Hyun Baek, Hyungsoo Kim, Jihye Bong, Kyle I Swanson, Aaron J Suminski, Kevin J Otto, Ramin Pashaie, Justin C Williams, Zhenqiang Ma, ACS Nano, 12 (1), pp. 148-157, 2018.
76. Jiancheng Yang, Shihyun Ahn, F Ren, SJ Pearton, Soohwan Jang, A Kuramata, IEEE Electron Device Letters, 38 (7), pp. 906-909, 2017.
77. Sunwoo Jung, Kwang Hyeon Baik, Fan Ren, Stephen J Pearton, Soohwan Jang, Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena, 35 (4), pp. 042201, 2017.
78. Gwangseok Yang, Soohwan Jang, Fan Ren, Stephen J Pearton, Jihyun Kim, ACS Applied Materials & Interfaces, 9 (46), pp. 40471-40476, 2017.
2179. Jiancheng Yang, Patrick Carey IV, Fan Ren, Yu-Lin Wang, Michael L Good, Soohwan Jang, Michael A Mastro, SJ Pearton, Applied Physics Letters, 111 (20), pp. 202104, 2017.
80. Jiancheng Yang, Zhiting Chen, Fan Ren, SJ Pearton, Gwangseok Yang, JihyunKim, Jonathan Lee, Elena Flitsiyan, Leonid Chernyak, Akito Kuramata, Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena, 36 (1) pp. 011206, 2018.
81. Soohwan Jang, Sunwoo Jung, Kimberly Beers, Jiancheng Yang, Fan Ren, A Kuramata, SJ Pearton, Kwang Hyeon Baik, Journal of Alloys and Compounds, 731, pp. 118-125, 2018.
82. AY Polyakov, NB Smirnov, IV Shchemerov, EB Yakimov, Jiancheng Yang, F Ren, Gwangseok Yang, Jihyun Kim, A Kuramata, SJ Pearton, Applied Physics Letters, 112 (3), pp. 032107, 2018.
83. Jonathan Lee, Elena Flitsiyan, Leonid Chernyak, Jiancheng Yang, Fan Ren, Stephen J Pearton, Boris Meyler, Y Joseph Salzman, Applied Physics Letters, 112 (8), pp. 082104, 2018.
84. Geonyeop Lee, Stephen J Pearton, Fan Ren, Jihyun Kim, ACS Applied Materials & Interfaces, 10 (12), pp. 10347-10352, 2018.
85. SJ Pearton, Jiancheng Yang, Patrick H Cary IV, F Ren, Jihyun Kim, Marko J Tadjer, Michael A Mastro, Applied Physics Reviews, 5 (1), pp. 011301, 2018.
86. Eugene B Yakimov, Alexander Y Polyakov, In-Hwan Lee, Stephen J Pearton, Journal of Applied Physics, 123 (16), pp. 161543, 2018.
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