Zachary Holman | ASU Search
Zachary Holman
Vice Dean for Research and Innovation
Fulton Schools of Engineering
Other ASU affiliations
School of Electrical, Computer and Energy Engineering
Senior Global Futures Scientist
Global Futures Scientists and Scholars
Affiliated staff and faculty
[email protected]
Phone:
480-965-9959
BYENG 610
TEMPE, AZ 85287
Mail code:
5706
Campus:
Tempe
Long Bio
Zachary Holman is the Vice Dean for Research and Innovation for the Ira A. Fulton Schools of Engineering, as well as a Professor in the School of Electrical, Computer, and Energy Engineering at Arizona State University. As Vice Dean, he leads the research strategy for the Fulton Schools, which is the largest engineering college in the country. He received his Ph.D. in Mechanical Engineering from the University of Minnesota for his work on plasma-synthesized silicon and germanium nanocrystals, after which he spent two years as a postdoctoral researcher developing high-efficiency silicon solar cells at Ecole Polytechnique Fédérale de Lausanne in Switzerland. His personal research interests include new semiconductor and solar materials, equipment, processes, and device designs. He has been named a Moore Inventor Fellow, Trustees of ASU Professor, Fulton Entrepreneurial Professor, and Joseph C. Palais Distinguished Faculty Scholar, and he is the co-founder of three start-up companies based on ASU research: Swift Coat, Sunflex Solar, and Beyond Silicon.
Education
Ph.D. Mechanical Engineering, University of Minnesota 2010
B.A. Physics, Reed College 2005
CV
Curriculum Vitae
Video
Research Website URL
Google Scholar URL
Research Interests
Zak's broad research interests span the fields of solar cells, coatings, nanotechnology, semiconductors, plasmas, and aerosols. Specific interests include silicon-based tandem solar cells, contacts to solar cells, light management in silicon solar cells, novel uses of nanoparticles in devices, semiconductor nanoparticles, optical and electronic properties of nanoscale materials, plasma synthesis of powders, and deposition of powders and thin films.
Publications
113. Z. Leuty,M. George, M. Garcia, Z. Yu, and Z. Holman, “High mobility soft sputtered ITO coatings by dual gas-flow sputtering,” (submitted).
112. Z. Leuty, W. Weigand, J. Ochoa, J. Carpenter, Z. Yu, M. Bertoni, and Z. Holman, “Ultra-high throughput inline deposition of silicon oxide for polycrystalline silicon passivating contacts,” (submitted).
111. D. Quispe, B. Eng, M. Kim, B. Coppa, M. Lee, and Z. Holman, “Evaluating the potential of polycrystalline Al0.25Ga0.75P and Al0.9Ga0.1As as hole contacts in silicon heterojunction solar cells,”
IEEE J. Photovoltaics
(in press).
110. D. Padmanaban, S. Sadhu, S. Dsouza, W. Mushtaq, Z Holman, V. Svrcek, and D. Mariotti, “One‐step synthesis and deposition of metal oxides: NiO quantum dots as a transport layer for perovskite photovoltaics,”
Adv. Eng. Mat.
26
, 2400826 (2024).
109. B. Hartweg, K. Fisher, J. Ro, and Z. Holman, “Qualification of laser-weld interconnection of aluminum foil to back-contact silicon solar cells,”
Sol. Energy Mater. Sol. Cells
266
, 112647 (2024).
108. M. Mahaffey, A. Onno, C. Reich, A. Danielson, W. Sampath, and Z. Holman, “Measuring the absorber doping concentration of Si, CdSeTe, and perovskite solar cells using injection-dependent quasi-steady-state photoluminescence,”
IEEE J. Photovoltaics
13
, 800–807 (2023).
107. G. Yang, Z. Yu, M. Wang, Z. Shi, Z. Ni, H. Jiao, C. Fei, A. Wood, A. Alasfour, B. Chen, Z. Holman, and J. Huang, “Shunt mitigation toward efficient large-area perovskite-silicon tandem solar cells,”
Cell Reports Phys. Sci.
, 101628 (2023).
106. D. Quispe, B. Eng, M. Kim, A. Onno, B. Coppa, Z. Yu, M. Lee, and Z. Holman, “Optical constants of polycrystalline Al0.25Ga0.75­P and Al0.9Ga0.1­As determined by variable-angle spectroscopic ellipsometry,”
J. Appl. Phys.
134
, 073104 (2023).
105. J. Levi, S. Guo, S. Kavadiya, Y. Luo, C.-S. Lee, H. Jacobs, Z. Holman, M. Wong, S. Garcia-Segura, C. Zhou, b. Rittmann, and P. Westerhoff, “Comparing methods to deposit Pd-In catalysts on hydrogen-permeable hollow-fiber membranes for nitrate reduction,”
Water Res.
235
, 119877 (2023).
104. G. Yang, M. Wang, C. Fei, H. Gu, Z. Yu, A. Alasfour, Z. Holman, and J. Huang, “Recycling silicon bottom cells from end-of-life perovskite–silicon tandem solar cells,”
ACS Energy Lett.
, 1639–1644 (2023).
103. A. Bothwell, C. Reich, A. Danielson, A. Onno, Z. Holman, W. Sampath, and D. Kuciauskas, “Charge carrier lifetime determination in graded absorber solar cells using time-resolved photoluminescence simulations and measurements,”
Solar RRL
, 2201029 (2023).
102. A. Danielson, C. Reich, R. Pandey, A. Munshi, A. Onno, W. Weigand, D. Kuciauskas, S. Li, A. Bothwell, J. Guo, M. Murugeson, J. McCloy, R. Klie, Z. Holman, and W. Sampath, “Electro-optical characterization of arsenic-doped CdSeTe and CdTe solar cell absorbers doped in-situ during close space sublimation,”
Sol. Energy Mater. Sol. Cells
251
, 112110 (2023).
101. B. Hartweg, K. Fisher, S. Niverty, N. Chawla, and Z. Holman, “Analysis of electrically conductive adhesives in shingled solar modules by X-ray imaging techniques,”
Microelectron. Reliab.
136
, 114627 (2022).
100. B. Chen, Z. Yu, A. Onno, Z. Yu, S. Chen, J. Wang, Z. Holman, and J. Huang, “Bifacial all-perovskite tandem solar cells,”
Sci. Adv.
, eadd0377 (2022).
99.   G. Yang, Z. Ni, Z. Yu, Z. Yu, B. Larson, B. Chen, A. Alasfour, X. Xiao, J. Luther, Z. Holman, and J. Huang, “Defect engineering in wide bandgap perovskites for efficient perovskite-silicon tandem solar cells,”
Nature Photonics
16
, 588–594 (2022).
98.   H. Bauser, M. Foley, M. Phelan, W. Weigand, D. Needell, Z. Holman, and H. Atwater, “Amorphous silicon carbide high contrast gratings as highly efficient spectrally selective visible reflectors,”
Opt. Express
30
, 26787–26793 (2022).
97.   A. Onno, C. Reich, S. Li, A. Danielson, W. Weigand, A. Bothwell, S. Grover, J. Bailey, G. Xiong, D. Kuciauskas, W. Sampath, and Z. Holman, “Understanding what limits the voltage of polycrystalline CdSeTe solar cells,”
Nature Energy
, 400–408 (2022).
96.   K. Chen, B. Hartweg, M. Woodhouse, H. Guthrey, W. Nemeth, S. Theingi, M. Page, Z. Holman, P. Stradins, S. Agarwal, and D. Young, “Self-aligned selective area front contacts on poly-Si/SiOx passivating contact c-Si solar cells,”
IEEE J. Photovoltaics
12
, 678–689 (2022).
95.   N. Liew, Z. Yu, Z. Holman, and H.-J. Lee, “Parametric study about performances of a solar photovoltaic/thermal hybrid using a spectral beam splitting technique,”
J. Renew. Sustain. Energy
14
, 013701 (2022).
94.   J. Ding, C. Campbell, J. Becker, C.-Y. Tsai, S. Schaefer, T. McCarthy, M. Boccard, Z. Holman, and Y.-H. Zhang, “Monocrystalline 1.7-eV MgCdTe solar cells,”
J. Appl. Phys.
131
023107
(2022). [Editor’s Pick].
93.   K. Liu, B. Chen, Z. Yu, Y. Wu, Z. Huang, X. Jia, C. Li, D. Spronk, Z. Wang, Z. Wang, S. Qu, Z. Holman, and J. Huang, “Reducing sputter induced stress and damage for efficient perovskite/silicon tandem solar cells,”
J. Mater. Chem. A
10
, 1343–1349 (2022).
92.   D. Kuciauskas, S. Li, J. Moseley, D. Albin, C. Lee, A Onno, and Z. Holman, “Voltage loss comparison in CdSe/CdTe solar cells and polycrystalline CdSeTe heterostructures,”
IEEE J. Photovoltaics
12
, 6–10 (2022).
91.   J. Bryan, T. Silverman, M. Deceglie, M. Mahaffey, P. Firth, and Z. Holman, “Systematic operating temperature differences between Al-BSF, PERC, and PERT-with-optimized-rear-reflector solar mini-modules due to rear reflectance,”
IEEE J. Photovoltaics
12
, 293–300 (2022).
90.   N. Liew, Z. Yu, Z. Holman, and H.-J. Lee, “Application of spectral beam splitting using wavelength-selective filters for photovoltaic/concentrated solar power hybrid plants,”
Appl. Thermal Eng.
201
, 117823 (2022).
89.   G. Yeung, C. Reich, A. Onno, A. Bothwell, A. Danielson, Z. Holman, W. Sampath, and C. Wolden, “Robust passivation of CdSeTe based solar cells using reactively sputtered magnesium zinc oxide,”
Sol. Energy Mater. Sol. Cells
233
, 111388 (2021).
88.   M. Wright, B. Vicari Stefani, A. Soeriyadi, B. Hallam, Z. Holman, Z. Yu, W. Weigand, D. Macdonald, R. Basnet, and C. Sun, “Progress with defect engineering in silicon heterojunction solar cells,”
Phys. Status Solidi RRL
15
, 2100170 (2021).
87.   S. Kavadiya, A. Onno, C. Boyd, X. Wang, A. Cetta, M. McGehee, and Z. Holman, “Investigation of the selectivity of carrier transport layers in wide-bandgap perovskite solar cells,”
Solar RRL
2100107
(2021).
86.   J. Bryan, T. Silverman, M. Deceglie, and Z. Holman, “Thermal model to quantify the impact of sub-bandgap reflectance on operating temperature of fielded PV modules,”
Solar Energy
220
, 246–250 (2021).
85.   J. Bryan, J. Carpenter, Z. Yu, A. Leilaeioun, J. Shi, W. Weigand, K. Fisher, and Z. Holman, “Aluminum-silicon interdiffusion in silicon heterojunction solar cells with a-Si:H(i)/a-Si:H(n/p)/Al rear contacts,”
J. Phys. D
54
, 134002 (2021).
84.   A. Alasfour, Z. Yu, W. Weigand, D. Quispe, and Z. Holman, “Sub-micrometer random-pyramid texturing of silicon solar wafers with excellent surface passivation and low reflectance,”
Sol. Energy Mater. Sol. Cells
218
, 110761 (2020).
83.   Z. Yu, Z. Yang, Z. Ni, Y. Shao, B. Chen, Y. Lin, H. Wei, Z. Yu, Z. Holman, and J. Huang, “Simplified interconnection structure based on C60/SnO2-x for all-perovskite tandem solar cells,”
Nature Energy
, 657–665
(2020).
82.   H. Bauser, C. Bukowsky, M. Phelan, W. Weigand, D. Needell, Z. Holman, and H. Atwater, “Photonic crystal waveguides for >90% light trapping efficiency in luminescent solar concentrators,”
ACS Photonics
, 2122–2131 (2020).
81.   S. Fan, Z. Yu, R. Hool, P. Dinghra, W. Weigand, M. Kim, E. Ratta, B. Li, Y. Sun, Z. Holman, and M. Lee, “Current-matched III–V/Si epitaxial tandem solar cells with 25.0% efficiency,”
Cell Rep. Phys. Sci.
, 100208
(2020).
80.   Z. Ni, C. Bao, Y. Liu, Q. Jiang, W.-Q. Wu, S. Chen, X. Dai, B. Chen, B. Hartweg, Z. Yu, Z. Holman, and J. Huang, “Resolving spatial and energetic distributions of trap states in metal halide perovskite solar cells,”
Science
367
, 1352–1358
(2020).
79.   B. Chen*, Z. Yu*, S. Manzoor, S. Wang, W. Weigand, Z. Yu, G. Yang, Z. Ni, Z. Holman, and J. Huang, “Blade-coated perovskites on textured silicon for 26%-efficient monolithic perovskite/silicon tandem solar cells,”
Joule
, 850–864 (2020). *Denotes co-first author.
78.   C. Boyd, R. Shallcross, T. Moot, R. Kerner, L. Bertoluzzi, A. Onno, S. Kavadiya, C. Chosy, E. Wolf, J. Werner, J. Raiford, C. de Paula, A. Palmstrom, Z. Yu, J. Berry, S. Bent, Z. Holman, J. Luther, E. Ratcliff, N. Armstrong, and M. McGehee, “Overcoming redox reactions at perovskite-nickel oxide interfaces to boost voltages in perovskite solar cells,”
Joule
, 1–17
(2020).
77.   S. Manzoor, M. Filipič, A. Onno, M. Topič, and Z. Holman, “Visualizing light trapping within textured silicon solar cells,”
J. Appl. Phys.
127
063104
(2020). [Editor’s Pick]
76.   J. Xu, C. Boyd, Z. Yu, A. Palmstrom, D. Witter, B. Larson, R. France, J. Werner, S. Harvey, E. Wolf, W. Weigand, S. Manzoor, M. van Hest, J. Berry, J. Luther, Z. Holman, and M. McGehee, “Triple-halide wide-bandgap perovskites with suppressed photoinduced phase-segregation for efficient tandems,”
Science
367
, 1097–1104
(2020).
75.   P. Muralidharan, A. Leilaeioun, W. Weigand, Z. Holman, S. Goodnick, and D. Vasileska, “Understanding transport in hole contacts of silicon heterojunction solar cells by simulating TLM structures,”
IEEE J. Photovoltaics
10
, 363–371 (2020).
74.   A. Atkinson, Y. Bi, P. Firth, O. Alrehaili, P. Westerhoff, and Z. Holman, “Aerosol impaction-driven assembly produces evenly dispersed nanoparticle coating on polymeric water treatment membranes,”
J. Nanoparticle Res.
22
, 102 (2020).
73.   A. Onno, N. Rodkey, A. Asgharzadeh, S. Manzoor, Z. Yu, F. Toor, and Z. Holman, “Predicted power output of silicon-based bifacial tandem photovoltaic systems,”
Joule
, 580–596 (2020).
72.   R. Basnet, W. Weigand, Z. Yu, C. Sun, S. Phang, H. Sio, F. Rougieux, Z. Holman, and D. Macdonald, “Impact of pre-fabrication treatments on n-type solar-grade wafers for 21% efficient silicon heterojunction solar cells,”
Sol. Energy Mater. Sol. Cells
205
, 110287 (2020).
71.   A. Leilaieoun, A. Onno, S. Manzoor, J. Shi, K. Fisher, Z. Yu, and Z. Holman, “Power losses in the front transparent conductive oxide layer of silicon heterojunction solar cells: Design guide for single-junction and four-terminal tandem applications,”
IEEE J. Photovoltaics
10
, 326–334 (2020).
70.   A. Leilaeioun*, W. Weigand*, M. Boccard, Z. Yu, K. Fisher, and Z. Holman, “Contact resistivity of the p-type amorphous silicon hole contact in silicon heterojunction solar cells,”
IEEE J. Photovoltaics
10
, 54–62 (2020). *Denotes co-first author.
69.   A. Onno, C. Chen, P. Koswatta, M. Boccard, and Z. Holman, “Passivation, conductivity, and selectivity in solar cell contacts: concepts and simulations based on a unified partial-resistances framework,”
J. Appl. Phys.
126
, 183103 (2019).
68.   E. Vadiee, E. Clinton, J. Carpenter, H. McFavilen, C. Arena, Z. Holman, C. Honsberg, and A. Doolittle, “The role of Mg bulk hyper-doping and delta-doping in low-resistance GaN homojunction tunnel diodes with negative differential resistance,”
J. Appl. Phys.
126
, 083110 (2019).
67.   E. Clinton, Z. Engel, E. Vadiee, J. Carpenter, Z. Holman, B. Gunning, and A. Doolittle, “Ultra-wide-bandgap AlGaN homojunction tunnel diodes with negative differential resistance,”
Appl. Phys. Lett.
115
, 082104 (2019).
66.   B. Stefani, W. Weigand, M. Wright, A. Soeriyadi, Z. Yu, M. Kim, D. Chen, Z. Holman, and B. Hallam, “P-type upgraded metallurgical-grade multicrystalline silicon heterojunction solar cells with open-circuit voltages over 690 mV,”
Phys. Status Solidi A
216
, 1900319 (2019).
65.   X. Meng, K. Fisher, L. Reinhart, W. Taylor, M. Stuckelberger, Z. Holman, and M. Bertoni, “Optical characterization of curved silicon PV modules with dichroic polymeric films,”
Sol. Energy Mater. Sol. Cells
201
, 110072 (2019).
64.   A. Basiri, X. Chen, J. Bai, P. Amrollahi, J. Carpenter, Z. Holman, C. Wang, and Y. Yao, “Nature-inspired chiral metasurfaces for circular polarization detection and full-Stokes polarimetric measurement,”
Light: Science & Applications
, 78 (2019).
63.   S. Fan, Z. Yu, Y. Sun, W. Weigand, P. Dhingra, M. Kim, R. Hool, E. Ratta, Z. Holman, and M. Lee, “20%-efficient epitaxial GaAsP/Si tandem solar cells,”
Sol. Energy Mater. Sol. Cells
202
, 110144 (2019).
62.   N. Mundhaas, Z. Yu, K. Bush, H.-P. Wang, J. Häusele, S. Kavadiya, M. McGehee, and Z. Holman, “Series resistance measurements of perovskite solar cells using Jsc-Voc measurements,”
Sol. RRL
1800378 (2019).
61.   D. Chen, M. Kim, J. Shi, B. Vicari Stefani, Z. Yu, S. Liu, R. Einhaus, S. Wenham, Z. Holman, and B. Hallam, “Defect engineering of p-type silicon heterojunction solar cells fabricated using commercial-grade low-lifetime silicon wafers,”
Prog. Photovoltaics
, DOI: 10.1002/pip.3230 (2019).
60.   N. Vulic, J. Carpenter, P. Firth, N. Rodkey, Z. Holman, and S. Goodnick, “Pore formation in silicon nanoparticle thin films and its impact on optical properties,”
ACS Appl. Energy Mater.
, 8587–8595 (2019).
59.
C. Sun, W. Weigand, J. Shi,
Z. Yu, R. Basnet, S. Pheng Phang, Z. Holman, and D. Macdonald, “Origins of hydrogen that passivates bulk defects in silicon heterojunction solar cells,”
Appl. Phys. Lett.
115
, 252103 (2019).
58.   Z. Yu, K. Fisher, J. Hyatt, R. Angel, and Z. Holman, “GaAs/silicon PVMirror tandem photovoltaic mini-module with 29.6% efficiency with respect to the outdoor global irradiance,”
Prog. Photovoltaics
27
, 469–475 (2019).
57.   C. Zhang, L. Ding, M. Boccard, T. Nærland, N. Faleev, S. Bowden, M. Bertoni, C. Honsberg, and Z. Holman, “Silicon nitride barrier layers mitigate minority-carrier lifetime degradation in silicon wafers during simulated MBE growth of III–V layers,”
IEEE J. Photovoltaics
, 431–436 (2019).
56.
B. Chen*, Z. Yu*, K. Liu*, X. Zheng, Y. Liu, J. Shi, D. Spronk, Z. Holman, and J. Huang, “Grain engineering for perovskite/silicon monolithic tandem solar cells with efficiency of 25.4%
,”
Joule
, 1–14 (2019). *Denotes co-first author.
55.   K. Bush, S. Manzoor, K. Frohna, Z. Yu, J. Raiford, A. Palmstrom, H.-P. Wang, R. Prasanna, S. Bent, Z. Holman, and M. McGehee, “Minimizing current and voltage losses to reach 25%-efficient monolithic two-terminal perovskite-silicon tandem solar cells,”
ACS Energy Lett.
, 2173–2180 (2018).
54.   S. Manzoor, J. Häusele, K. Bush, A. Palmstrom, J. Carpenter, Z. Yu, S. Bent, M. McGehee, and Z. Holman, “Optical modeling of wide-bandgap perovskite and perovskite/silicon tandem solar cells using complex refractive indices for arbitrary-bandgap perovskite absorbers,”
Opt. Express
26
, 27441–27460 (2018).
53.   C. Sun, D. Chen, W. Weigand, R. Basnet, S. Pheng Phang, B. Hallam, Z. Holman, and D. Macdonald, “Complete regeneration of BO-related defects in n-type upgraded metallurgical-grade Czochralski-grown silicon heterojunction solar cells,”
Appl. Phys. Lett.
113
, 152105 (2018).
52.   Z. Yu, J. Carpenter, and Z. Holman, “Techno-economic viability of silicon-based tandem photovoltaic modules in the United States,”
Nature Energy
, 747–753 (2018).
51.   P. Firth and Z. Holman, “Aerosol impaction-driven assembly system for production of uniform nanoparticle thin films with independently tunable thickness and porosity,”
ACS Appl. Nano Mater.
, 4351–4357 (2018).
50.   S. Husein, M. Stuckelberger, B. West, L. Ding, F. Dauzou, M. Morales-Masis, M. Duchamp, Z. Holman, and M. Bertoni, “Carrier scattering mechanisms limiting mobility in hydrogen-doped indium oxide,”
J. Appl. Phys.
123
, 245102 (2018). [Editor’s Pick]
49.   D. Swanson, C. Reich, A. Abbas, T. Shimpi, H. Liu, F. Ponce, J. Walls, Y.-H. Zhang, W. Metzger, W. Sampath, and Z. Holman, “CdCl2 passivation of polycrystalline CdMgTe and CdZnTe absorbers for tandem photovoltaic cells,”
J. Appl. Phys.
123
, 203101 (2018). [Editor’s Pick]
48.   B. Hallam, D. Chen, J. Shi, R. Einhaus, Z. Holman, and S. Wenham, “Pre-fabrication gettering and hydrogenation treatments for silicon heterojunction solar cells: A possible path to >700 mV open-circuit voltages using low-lifetime commercial-grade p-type Czochralski silicon,”
Sol. RRL
1700221 (2018).
47.   K. Bush, N. Rolston, A. Gold-Parker, S. Manzoor, J. Hausele, Z. Yu, J. Raiford, R. Cheacharoen, Z. Holman, M. Toney, R. Dauskardt, and M. McGehee, “Controlling thin film stress and wrinkling during perovskite film formation,”
ACS Energy Lett.
, 1225–1232 (2018).
46.   J. Becker, C. Campbell, Y. Zhao, M. Lassise, X.-H. Zhao, M. Boccard, Z. Holman, and Y.-H. Zhang, “Monocrystalline 1.7-eV-bandgap MgCdTe solar cell with 11.2% efficiency,”
IEEE J. Photovoltaics
, 581–586 (2018).
45.   S. Manzoor, Z. Yu, A. Ali, W. Ali, K. Bush, A. Palmstrom, S. Bent, M. McGehee, and Z. Holman, “Improved light management in planar silicon and perovskite solar cells using PDMS scattering layer,”
Sol. Energy Mater. Sol. Cells
173
, 59–65 (2017).
44.   M. Boccard, P. Firth, Z. Yu, K. Fisher, M. Leilaeioun, S. Manzoor, and Z. Holman, “Low-refractive-index nanoparticle interlayers to reduce parasitic absorption in metallic rear reflectors of solar cells,”
Phys. Status Solidi A
214
, 1700179 (2017).
43.   J. Carpenter, M. Bailly, A. Boley, J. Shi, M. Minjares, D. Smith, S. Bowden, and Z. Holman, “Substrate-independent analysis of microcrystalline silicon thin films using UV Raman spectroscopy,”
Phys. Status Solidi B
254
, 1700204 (2017).
42.   R. Saive, M. Boccard, T. Saenz, S. Yalamanchili, C. Bukowsky, P. Jahelka, Z. Yu, J. Shi, Z. Holman, and H. Atwater, “Silicon heterojunction solar cells with effectively transparent front contacts,”
Sust. Energy Fuels
, 593–598 (2017).
41.   M. Vaisman, K. Nay Yaung, E. Perl, D. Martín-Martín, Z. Yu, M. Leilaeioun, Z. Holman, and M. Lee, “15.3%-efficient GaAsP top cells for high-efficiency, low-cost III-V/Si tandem photovoltaics,”
ACS Energy Lett.
, 1911–1918 (2017).
40.   J. Becker, M. Boccard, C. Campbell, Y. Zhao, M. Lassise, Z. Holman, and Y.-H. Zhang, “Loss analysis of monocrystalline CdTe solar cells with 20% active-area efficiency,”
IEEE J. Photovoltaics
, 900–905 (2017).
39.   K. Bush*, A. Palmstrom*, Z. Yu*, M. Boccard, R. Cheacharoen, J. Mailoa, D. McMeekin, R. Hoye, C. Bailie, T. Leijtens, I. Peters, M. Minichetti, N. Rolston, R. Prasanna, S. Sofia, D. Harwood, W. Ma, F. Moghadam, H. Snaith, T. Buonassisi, Z. Holman, S. Bent, and M. McGehee, “23.6%-efficient monolithic perovskite/silicon tandem solar cells with improved stability,”
Nature Energy
, 17009 (2017). *Denotes co-first author.
38.   J. Becker, C. Campbell, Y. Zhao, M. Boccard, D. Mohanty, M. Lassise, E. Suarez, I. Bhat, Z. Holman, and Y.-H. Zhang, “Monocrystalline CdTe/MgCdTe double-heterostructure solar cells with ZnTe hole contact,”
IEEE J. Photovoltaics
, 307–312 (2017).
37.   M. Leilaeioun and Z. Holman, “Accuracy of expressions for the fill factor of a solar cell in terms of its open-circuit voltage and ideality factor,”
J. Appl. Phys.
120
, 123111 (2016).
36.   Z. Yu, M. Leilaeioun, and Z. Holman, “Selecting tandem partners for silicon solar cells using spectral efficiency,”
Nature Energy
, 16137 (2016).
35.   Z.-Y. He, C. Campbell, M. Lassise, Z.-Y. Lin, J. Becker, Y. Zhao, M. Boccard, Z. Holman, and Y.-H. Zhang, “CdTe nBn photodetectors with ZnTe barrier layer grown on InSb substrates,”
Appl. Phys. Lett.
109
, 121112 (2016).
34.   S. Vorndran, B. Chrysler, B. Wheelwright, R. Angel, Z. Holman, and R. Kostuk, “Off-axis holographic lens spectrum splitting system for direct and diffuse solar energy conversion,”
Appl. Opt.
55
, 7522–7529 (2016).
33.   B. Chen, Y. Bai, Z. Yu, T. Li, X. Zheng, Q. Dong, M. Boccard, A. Gruverman, Z. Holman, and J. Huang, “Efficient semi-transparent perovskite solar cells for 23%-efficiency perovskite/silicon four-terminal tandem cells,”
Adv. Energy Mat
. 1601128 (2016).
32.   J. Shi, M. Boccard, and Z. Holman, “Plasma-initiated rehydrogenation of amorphous silicon to increase the temperature processing window of silicon heterojunction solar cells,”
Appl. Phys. Lett.
109
, 031601 (2016).
31.   Z. Yu, B. Wheelwright, S. Manzoor, and Z. Holman, “Silicon wafers with optically specular surfaces formed by chemical polishing,”
J. Mater. Sci. Mater. Electron.
27
, 10270–10275 (2016).
30.   Y. Zhao, M. Boccard, S. Liu, J. Becker, X.-H. Zhao, C. Campbell, E. Suarez, M. Lassise, Z. Holman, and Y.-H. Zhang, “Monocrystalline CdTe solar cells with open-circuit voltage over 1 V and efficiency of 17%,”
Nature Energy
, 16067 (2016).
29.   M. Boccard and Z. Holman, “Amorphous silicon carbide passivating layers for crystalline-silicon-based heterojunction solar cells,”
J. Appl. Phys.
118
, 065704 (2015).
28.   Z. Yu, K. Fisher, B. Wheelwright, R. Angel, and Z. Holman, “PVMirror: A new concept for tandem solar cells and hybrid solar converters,”
IEEE J. Photovoltaics
, 1791–1799 (2015). [Most downloaded paper in
IEEE J. Photovoltaics
in January and February, 2016]
27.   B. Terheiden, T. Ballmann, R. Horbelt, Y. Schiele, S. Seren, J. Ebser, G. Hahn, V. Mertens, M. Koentopp, M. Scherff, J. Müller, Z. Holman, A. Descoeudres, S. De Wolf, S. Martin de Nicolas, J. Geissbuehler, C. Ballif, B. Weber, P. Saint-Cast, M. Rauer, C. Schmiga, S. Glunz, D. Morrison, S. Devenport, D. Antonelli, C. Busto, F. Grasso, F. Ferrazza, E. Tonelli, and W. Oswald, “Manufacturing 100-µm-thick silicon solar cells with efficiencies greater than 20% in a pilot production line,”
Phys. Status Solidi A
212
, 13–24 (2015).
26.   J. Seif, A. Descoeudres, M. Filipič, F. Smole, M. Topič, Z. Holman, S. De Wolf, and C. Ballif, “Amorphous silicon oxide window layers for high-efficiency silicon heterojunction solar cells,”
J. Appl. Phys.
115
, 024502 (2014). [Highlighted by
J. Appl. Phys.
as part of the journal’s celebration of the International Year of Light]
25.   M. Deceglie, H. Emmer, Z. Holman, A. Descoeudres, S. De Wolf, C. Ballif, and H. Atwater, “Scanning laser-beam-induced current measurements of lateral transport near junction defects in silicon heterojunction solar cells,”
IEEE J. Photovoltaics
, 154–159 (2014).
24.   Z. Holman, M. Filipič, B. Lipovšek, S. De Wolf, F. Smole, M. Topič, and C. Ballif, “Parasitic absorption in the rear reflectors of silicon solar cells: Simulation and measurement of the sub-bandgap reflectance for common dielectric/metal reflectors,”
Sol. Energy Mater. Sol. Cells
120
, 426-430 (2014).
23.   Z. Holman, A. Descoeudres, S. De Wolf, and C. Ballif, “Record infrared internal quantum efficiency in silicon heterojunction solar cells with dielectric/metal rear reflectors,”
IEEE J. Photovoltaics
, 1243–1249 (2013).
22.   M. Filipič, Z. Holman, F. Smole, S. De Wolf, C. Ballif, and M. Topič, “Analysis of lateral transport through inversion layer in amorphous silicon/crystalline silicon heterojunction solar cells,”
J. Appl. Phys.
114
, 074504 (2013).
21.   Z. Holman, S. De Wolf, and C. Ballif, “Improving metal reflectors by suppressing surface plasmon polaritons:
A priori
calculation of the internal reflectance of a solar cell,”
Light: Science & Applications
, e106 (2013).
20.   L. Barraud, Z. Holman, N. Badel, P. Reiss, A. Descoeudres, C. Battaglia, S. De Wolf, and C. Ballif, “Hydrogen-doped indium oxide/indium tin oxide bilayers for high-efficiency silicon heterojunction solar cells,”
Sol. Energy Mater. Sol. Cells
115
, 151–156
(2013).
19.   Z. Holman, M. Filipič, A. Descoeudres, S. De Wolf, F. Smole, M. Topič, and C. Ballif, “Infrared light management in high-efficiency silicon heterojunction and rear-passivated solar cells,”
J. Appl. Phys.
113
, 013107 (2013). [Highlighted by
J. Appl. Phys.
as part of the journal’s celebration of the International Year of Light]
18.   A. Descoeudres, Z. Holman, L. Barraud, S. Morel, S. De Wolf, and C. Ballif, “>21% efficient silicon heterojunction solar cells on n- and p-type wafers compared,”
IEEE J. Photovoltaics
, 83–89 (2013).
17.   B. Demaurex, S. De Wolf, A. Descoeudres, Z. Holman, and C. Ballif, “Damage at hydrogenated amorphous/crystalline silicon interfaces by indium tin oxide overlayer sputtering,”
Appl. Phys. Lett.
101
, 171604 (2012).
16.   R. Anthony, K.-Y. Cheng, Z. Holman, R. Holmes, and U. Kortshagen, “An all-gas-phase approach for the fabrication of silicon nanocrystal light-emitting devices”
Nano Lett.
12
, 2822–2825 (2012).
15.   Z. Holman and U. Kortshagen, “Absolute absorption cross sections of ligand-free colloidal germanium nanocrystals,”
Appl. Phys. Lett.
100
, 133108 (2012).
14.   S. De Wolf, A. Descoeudres, Z. Holman, and C. Ballif, “High-efficiency silicon heterojunction solar cells: A review,”
Green
, 7–24 (2012).
13.   Z. Holman, A. Descoeudres, L. Barraud, F. Zicarelli, J. Seif, S. De Wolf, and C. Ballif, “Current losses at the front of silicon heterojunction solar cells,”
IEEE J. Photovoltaics
, 7–15 (2012).
12.   A. Descoeudres, L. Barraud, S. De Wolf, B. Strahm, D. Lachenal, C. Guerin, Z. Holman, F. Zicarelli, B. Demaurex, J. Seif, J. Holovsky, and C. Ballif, “Improved amorphous/crystalline silicon interface passivation by hydrogen plasma treatment,”
Appl. Phys. Lett.
99
, 123506 (2011).
11.  Z. Holman and U. Kortshagen, “Nanocrystal inks without ligands: Stable colloids of bare germanium nanocrystals,”
Nano Lett.
11
, 2133–2136 (2011).
10.  Z. Holman and U. Kortshagen, “Plasma production of nanodevice-grade semiconductor nanocrystals,”
J. Phys. D
44
, 174009 (2011).
9.  Z. Holman and U. Kortshagen, “Quantum confinement in germanium nanocrystal thin films,”
Phys. Status Solidi RRL
, 110–112 (2011).
8.  Z. Holman and U. Kortshagen, “A flexible method for depositing dense nanocrystal thin films: Impaction of germanium nanocrystals,”
Nanotechnology
21
, 335302 (2010).
7.  Z. Holman, C.-Y. Liu, and U. Kortshagen, “Germanium and silicon nanocrystal thin-film field-effect transistors from solution,”
Nano Lett.
10
, 2661–2666 (2010).
6.  C.-Y. Liu, Z. Holman, and U. Kortshagen, “Optimization of Si NC/P3HT hybrid solar cells,”
Adv. Funct. Mat.
20
, 2157–2164 (2010).
5.  Z. Holman and U. Kortshagen, “Solution-processed germanium nanocrystal thin films as materials for low-cost optical and electronic devices,”
Langmuir
25
, 11883–11889 (2009).
4.  C.-Y. Liu, Z. Holman, and U. Kortshagen, “Hybrid solar cells from P3HT and silicon nanocrystals,”
Nano Lett.
, 449–452 (2009).
3.  U. Kortshagen, R. Gresback, Z. Holman, R. Ligman, C.-Y. Liu, L. Mangolini, and S. Campbell, “Plasma synthesis of group IV quantum dots for luminescence and photovoltaic applications,”
Pure Appl. Chem.
80
, 1901–1908 (2008).
2.  R. Gresback, Z. Holman, and U. Kortshagen, “Nonthermal plasma synthesis of size-controlled, monodisperse, freestanding germanium nanocrystals,”
Appl. Phys. Lett.
91
, 093119 (2007).
1.  A. LaLonde, M. Norton, D. McIlroy, D. Zhang, R. Padmanabhan, A. Alkhateeb, H. Han, N. Lane, and Z. Holman, “Metal coatings on SiC nanowires by plasma-enhanced chemical vapor deposition,”
J. Mater. Res.
20
, 549–553 (2005).
Research Activity
01/2025–12/2029    DOC National Advanced Packaging Manufacturing Program, “Substrate-based heterogeneous integration enabling leadership demonstration for the USA (SHIELD USA),” (Co-PI)
10/2024–09/2025    DOE NETL, “Center for clean energy materials,” (PI)
11/2023–10/2028    NSTXL Microelectronics Commons, “Southwest Advanced Prototyping (SWAP) Hub,” (Co-PI)
10/2023–05/2027    DOE SETO, “TEAMUP: Tandems for efficient and advanced modules using ultrastable perovskites,” (Co-PI)
07/2023–04/2024    DOE BES SBIR, “Development of new metallization pastes for front-side tunnel oxide passivated contact crystalline silicon solar cells,” (Co-PI)
07/2023–06/2025    TSMC, confidential project, (PI)
04/2023–03/2024    Applied Materials, confidential project, (PI)
10/2022–10/2023    DOE SETO, “PV Foundry: Increasing manufacturing innovation and capabilities in the US,” (PI)
09/2022–08/2024    US Department of State, “GIST Innovates the Balkans,” (Co-PI)
11/2021–10/2026    USAID, “Center of Excellence for Energy,” (Co-PI)
11/2021–10/2022    AZ New Economy Initiative, “Suns-ERE: A characterization tool to accelerate the learning cycle of thin-film photovoltaics,” (PI)
10/2021–09/2024    EDA Build to Scale, “Arizona semiconductor industry startup entrepreneurial development project,” (Co-PI)
10/2021–11/2025    DOE SETO, “Manufacturing 27%-efficient perovskite/silicon tandem photovoltaic cells using slot die coating at >5000 wafers per hour,” (Co-PI)
04/2021–03/2024    DOE SETO, “The role of hydrogen in the performance and long-term stability of high-efficiency silicon cells and modules,” (Co-PI)
01/2021–12/2022    Sunflex Solar, “Scaling Sunfoil solar modules,” (PI)
08/2020–08/2020    Corporate gift (PI)
04/2020–03/2023    DOE SETO, “Sonic Wafering™ of III-V substrates for high efficiency cells: A path to <$0.50/W,” (Co-PI)
10/2019–09/2020    US Government, “Flexible and advanced solar panel technologies,” (PI)
08/2019–07/2021    NSF, “Center to center (C2C) international collaboration on advanced photovoltaics: Electrode manufacturing and indoor power applications,” (Co-PI)
08/2019–07/2022    DOE SETO, “Scalable manufacturing of efficient perovskite/silicon tandem modules,” (Co-PI)
03/2019–02/2024    NSF CAREER, “CAREER: Transparent, passivating, and carrier-selective heterojunction contacts for silicon and cadmium telluride solar cells,” (PI)
01/2019–12/2021    DOE SETO, “Diagnosing and overcoming recombination and resistive losses in non-silicon solar cells using a silicon-inspired characterization platform,” (PI)
01/2019–12/2021    DOE SETO, “Bringing high-efficiency silicon solar cells with heterojunction contacts to market with a new, versatile deposition technique,” (PI)
01/2019–06/2020    DOE SETO, “Wide-bandgap polycrystalline III-Vs as transparent, carrier-selective heterojunction contacts for silicon photovoltaics,” (Co-PI)
01/2019–12/2020    NREL, “ASU-NREL joint silicon solar cell research: passivated contacts, metallization, and bulk defects,” (PI)
01/2019–12/2021    ARPA-E DAYS, “Solid state thermal battery,” (Co-PI)
01/2019–12/2019    FSE/CLAS/AMI Seed, “MRSEC planning and preliminary data collection,” (Co-PI)
10/2018–09/2020    Fulton Entrepreneurial Professors Program, “Aerosol impaction-driven assembly of functional nanomaterial coatings,” (PI)
10/2018–09/2021    Moore Foundation Inventor Fellowship, “Aerosol impaction-driven assembly of functional nanomaterial coatings,” (PI)
10/2018–09/2019    FSE/CLAS/AMI Seed, “Diamond and III-nitride integration for ultra-gap devices,” (PI)
06/2018–05/2019    NSF SBIR, “Non-thermal plasma source for functional metal-oxide nanoparticle coatings,” (Co-PI)
02/2018–09/2018    NREL, “PERC and SHJ silicon solar modules with high infrared reflectance,” (Co-PI)
01/2018–01/2021    ARENA, “Hydrogenated and hybrid heterojunction p-type silicon PV cells R&D project,” (Co-PI)
10/2017–09/2020    DOE PVRD-II, “Perovskite-on-silicon tandem solar cells,” (Co-PI)
10/2017–05/2020    DOE DuraMAT, “Silicon IBC modules with copper foil electrodes: Failure mechanisms of electrically conductive adhesive bonds between cells and foil,” (PI)
10/2017–09/2018    BAPVC, “Low capex solar manufacturing enabled by perovskite semiconductors,” (Co-PI)
08/2017–01/2019    ACAP, “P-type hybrid heterojunction solar cells,” (Co-PI)
05/2017–04/2019    NSF EAGER, “Collaborative research: 30%-efficient, stable perovskite/silicon monolithic tandem solar cells,” (PI)
02/2017–04/2017    NSF SBIR, “                 The aerosol-spray deposition of photoluminescent quantum-dot coatings on substrates,” (Co-PI)
01/2017–12/2019    ARPA-E SHIELD, “Single-pane windows with insulating sprayed particulate coatings,” (PI)
12/2016–11/2017    NSF SBIR, “ Low damage sputter magnetron for silicon heterojunction PV production,” (Co-PI)
11/2016–10/2018    DOE NextGen-III, “Developing efficient silicon cells for perovskite/silicon tandem devices,” (Co-PI)
09/2016–08/2017    American Jobs Project, “Arizona’s advanced energy landscape,” (PI)
08/2016–07/2019    DOE PVRD, “Monolithic silicon module manufacturing at < 0.40 $/W,” (PI)
08/2016–07/2018    DOE PVRD, “15%-efficiency (Mg,Zn)CdTe solar cells with 1.7 eV bandgap for tandem applications,” (PI)
08/2016–07/2017    SolarReserve, “Hybrid heliostat development,” (PI)
07/2016–01/2017    FSE Technology Innovation Laboratory, “Advanced manufacturing of nanoparticle-based coatings,” (PI)
06/2016–05/2017    DOE PVRD SIPS, “A new class of tandems: Optically coupled III-V/silicon module with outdoor efficiency exceeding 30%,” (PI)
05/2016–11/2016    FSE Technology Innovation Laboratory, “Hybrid heliostat for combined photovoltaic and solar thermal power plants,” (PI)
04/2016–03/2019    NSF REU Site, “Solar energy research for the Terawatt Challenge,” (PI)
01/2016–12/2018    DOE SuNLaMP, “Overcoming bottlenecks to low-cost, high-efficiency Si PV and industrially relevant, ion implanted interdigitated back passivated contact cell development,” (Co-PI)
09/2015–08/2018    NSF Energy for Sustainability, “Collaborative research: 30%-efficient III-V/silicon tandem solar cells,” (PI)
08/2015–07/2020    NSF ERC, “Nano-Enabled Water Treatment: NEWT,” (Co-PI)
06/2015–05/2020    USAID, “U.S.-Pakistan Centers for Advanced Studies in Energy,” (Co-PI)
05/2015–04/2016    ARPA-E I-Corps Supplement, “PVMirror: Cost competitive solar with storage,” (PI)
02/2015–01/2017    RCSA Scialog, “Scalable tandem architecture for solar water splitting,” (PI)
06/2014–05/2017    ARPA-E FOCUS, “PVMirror: A solar concentrator mirror incorporating PV cells,” (PI)
09/2013–08/2016    DOE FPACE-II, “Thin silicon solar cells: A path to 35% Shockley-Queisser limits,” (Co-PI)
08/2011–07/2021    NSF/DOE ERC, “Quantum Energy and Sustainable Solar Technologies: QESST,” (Co-PI)
06/2010–08/2010          NSF EAPSI, “Novel solar cells using silicon nanocrystals synthesized in an atmospheric-pressure plasma,” (PI)
Courses
2026 Summer
Course Number
Course Title
EEE 790
Reading and Conference
EEE 690
Reading and Conference
EEE 590
Reading and Conference
EEE 795
Continuing Registration
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 592
Research
MSE 792
Research
MSE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 592
Research
EEE 599
Thesis
MSE 795
Continuing Registration
2026 Spring
Course Number
Course Title
PHY 792
Research
EEE 790
Reading and Conference
EEE 592
Research
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 690
Reading and Conference
EEE 595
Continuing Registration
EEE 492
Honors Directed Study
EEE 599
Thesis
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 592
Research
EEE 795
Continuing Registration
EEE 590
Reading and Conference
EEE 795
Continuing Registration
EEE 599
Thesis
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 592
Research
EEE 790
Reading and Conference
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
MAE 593
Applied Project
MSE 792
Research
EEE 499
Individualized Instruction
2025 Fall
Course Number
Course Title
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 590
Reading and Conference
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 690
Reading and Conference
EEE 790
Reading and Conference
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 592
Research
EEE 590
Reading and Conference
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 590
Reading and Conference
EEE 799
Dissertation
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 499
Individualized Instruction
MSE 792
Research
2025 Summer
Course Number
Course Title
EEE 690
Reading and Conference
EEE 790
Reading and Conference
EEE 795
Continuing Registration
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 592
Research
MSE 792
Research
MSE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 592
Research
EEE 599
Thesis
MSE 795
Continuing Registration
2025 Spring
Course Number
Course Title
EEE 590
Reading and Conference
EEE 493
Honors Thesis
PHY 792
Research
EEE 790
Reading and Conference
EEE 592
Research
EEE 499
Individualized Instruction
EEE 690
Reading and Conference
EEE 595
Continuing Registration
EEE 492
Honors Directed Study
EEE 599
Thesis
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 592
Research
EEE 590
Reading and Conference
EEE 795
Continuing Registration
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 592
Research
EEE 790
Reading and Conference
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
MAE 593
Applied Project
EEE 499
Individualized Instruction
2024 Fall
Course Number
Course Title
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 590
Reading and Conference
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 690
Reading and Conference
EEE 790
Reading and Conference
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 592
Research
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 499
Individualized Instruction
MSE 792
Research
2024 Summer
Course Number
Course Title
EEE 799
Dissertation
EEE 795
Continuing Registration
EEE 792
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 592
Research
MSE 792
Research
MSE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 592
Research
EEE 599
Thesis
MSE 795
Continuing Registration
MSE 593
Applied Project
2024 Spring
Course Number
Course Title
PHY 792
Research
EEE 592
Research
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 690
Reading and Conference
EEE 595
Continuing Registration
EEE 492
Honors Directed Study
EEE 599
Thesis
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 590
Reading and Conference
EEE 595
Continuing Registration
EEE 795
Continuing Registration
EEE 590
Reading and Conference
EEE 590
Reading and Conference
EEE 592
Research
EEE 792
Research
EEE 790
Reading and Conference
EEE 790
Reading and Conference
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
MAE 593
Applied Project
MSE 792
Research
EEE 499
Individualized Instruction
2023 Fall
Course Number
Course Title
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 590
Reading and Conference
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 690
Reading and Conference
EEE 790
Reading and Conference
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 592
Research
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 592
Research
EEE 590
Reading and Conference
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 499
Individualized Instruction
MAE 593
Applied Project
MSE 792
Research
2023 Summer
Course Number
Course Title
EEE 790
Reading and Conference
EEE 690
Reading and Conference
EEE 590
Reading and Conference
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 592
Research
MSE 792
Research
MSE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 590
Reading and Conference
EEE 592
Research
EEE 599
Thesis
EEE 792
Research
MSE 795
Continuing Registration
2023 Spring
Course Number
Course Title
EEE 492
Honors Directed Study
PHY 792
Research
EEE 790
Reading and Conference
EEE 592
Research
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 690
Reading and Conference
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 792
Research
EEE 590
Reading and Conference
EEE 795
Continuing Registration
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
MAE 593
Applied Project
MSE 792
Research
2022 Fall
Course Number
Course Title
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 590
Reading and Conference
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 690
Reading and Conference
EEE 790
Reading and Conference
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 592
Research
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 598
Special Topics
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 499
Individualized Instruction
MAE 593
Applied Project
EEE 565
Solar Cells
EEE 565
Solar Cells
MSE 792
Research
2022 Summer
Course Number
Course Title
EEE 790
Reading and Conference
MSE 792
Research
MSE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 590
Reading and Conference
MSE 795
Continuing Registration
2022 Spring
Course Number
Course Title
PHY 792
Research
EEE 790
Reading and Conference
EEE 592
Research
EEE 499
Individualized Instruction
EEE 690
Reading and Conference
EEE 595
Continuing Registration
EEE 492
Honors Directed Study
EEE 599
Thesis
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 590
Reading and Conference
EEE 795
Continuing Registration
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
IVD 562
Innovation Studio III
MAE 593
Applied Project
MSE 792
Research
2021 Fall
Course Number
Course Title
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 590
Reading and Conference
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 690
Reading and Conference
EEE 790
Reading and Conference
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 592
Research
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 598
Special Topics
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 499
Individualized Instruction
MAE 593
Applied Project
2021 Summer
Course Number
Course Title
EEE 690
Reading and Conference
EEE 590
Reading and Conference
EEE 790
Reading and Conference
MSE 792
Research
MSE 792
Research
EEE 592
Research
EEE 595
Continuing Registration
EEE 599
Thesis
EEE 792
Research
EEE 795
Continuing Registration
EEE 799
Dissertation
EEE 590
Reading and Conference
MSE 799
Dissertation
2021 Spring
Course Number
Course Title
PHY 792
Research
EEE 790
Reading and Conference
EEE 592
Research
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
EEE 690
Reading and Conference
EEE 595
Continuing Registration
EEE 492
Honors Directed Study
EEE 599
Thesis
EEE 792
Research
EEE 799
Dissertation
EEE 595
Continuing Registration
MSE 599
Thesis
MSE 792
Research
MSE 795
Continuing Registration
MSE 799
Dissertation
EEE 590
Reading and Conference
EEE 795
Continuing Registration
EEE 492
Honors Directed Study
EEE 493
Honors Thesis
EEE 499
Individualized Instruction
IVD 562
Innovation Studio III
MAE 593
Applied Project
Expertise Areas
Food, Water, and Energy Nexus
Materials Science
Nanotechnology
Science and Engineering Education
Solar Energy Systems
Solid State Physics
Thin Film Materials