Publications

Joanna Millunchick

  1. Cassandra Sue Ellen Woodcock, John Callewaert, Joanna Millunchick, “Synthesizing Definitions of Professional Competencies Linked to Experiential Learning in Engineering Education: A Literature Review,” Journal of Higher Education Theory and Practice 21:4 (2021)
  2. J. M. Millunchick, Emma Brennan-Wydra, Trevion Henderson, Aaron Johnson, C. Finelli, “The Role of Socialization on Participation in Engineering-based Co-curricular Activities,” Journal of Engineering Education, 1 (2021) https://doi.org/10.1002/jee.20380
  3. Callewaert, J. H., & Millunchick, J. M., & Woodcock, C. S. E., & Jiang, K. C., & Edington, S. (2020, June), Developing a Framework for Experiential Learning Paper presented at 2020 ASEE Virtual Annual Conference Experience, Virtual Online . https://peer.asee.org/34414
  4. Zhou Y, Millunchick JM, “Patterns of Participation in Engineering Co-curricular Activities”  2020 ASEE Annual Conference & Exposition
  5.  Zhou Y, Millunchick JM, “What Affects Student Outcomes More: GPA or participation in co-curricular activities?”  2020 ASEE Annual Conference & Exposition
  6. Ramiro, J. Villa, J. Hwang, A. J. Martin, J. Millunchick, J. Phillips, and A. Martí, “Demonstration of an intermediate band solar cell operating at maximum power point,” Physical Review Letters 125, 247703 (2020)
  7. B. A. Carter, V. Caro, L. Yue, C. R. Tait, J. M. Millunchick, “The Effect of III:V Ratio on Compositional and Microstructural Properties of GaAs1-xBi(001),” Journal of Crystal Growth, 548, 125815 (2020)
  8. Emma Brennan-Wydra, Joanna M. Millunchick, Trevion S. Henderson, Aaron Johnson, Cynthia Finelli, “Investigating the Adaptation of Socialization Processes Scales in Engineering Education Context,” International Journal of Engineering Education 36 (4) 1383–1395 (2020)
  9. Brennan-Wydra E, Millunchick JM, Johnson AW, Finelli CJ, Henderson TS (2019) The Influence of Background Characteristics on Socialization Processes in Engineering. 2019 ASEE Annual Conference & Exposition
  10. R. M. Mwenesi, E. Brennan-Wydra, C. Sanchez, M. Ellis, Darryl Koch, C. S.  Davis, and J. M. Millunchick, “The WREASN Typology of Student Involvement Activities,” 2018 IEEE Frontiers in Education Conference
  11. Veronica Caro, Brandon Carter, Gus Schissel, Sahil Dagli, J. M. Millunchick, “Can Virtual Reality Enhance Learning: A Case Study in Materials Science,” 2018 IEEE Frontiers in Education Conference 
  12. Trevion Henderson, Emma Brennan-Wydra, J. M. Millunchick, C. Finelli,“Institutional Tactics and Proactivity in Engineering: The Role of Social Capital and College-Going Experiences,” 2018 IEEE Frontiers in Education Conference 
  13. Trevion Henderson, Emma Brennan-Wydra, J. M. Millunchick, C. Finelli, “Undergraduate Socialization in Engineering: The Role of Institutional Tactics and Proactive Behaviors,” Proceedings of the American Society of Engineering Education, 23373 (2018)
  14. Evan Anderson and J. M. Millunchick, “Interactions between Sb and As on InAs(001) surfaces,” Journal of Crystal Growth 500 (2018) 68-3
  15. C. R. Tait, L. Yan, J. M. Millunchick, “Spontaneous nanostructure formation in GaAsBi alloys,” Journal of Crystal Growth 493 (2018) 20–24
  16. Lifan Yan, Arnab Hazari, Pallab Bhattacharya, Joanna M. Millunchick, “Shape Evolution of High Lattice-Mismatched InN/InGaN Nanowire Heterostructures,” Journal of Electronic Materials 47 966 (2018); https://doi.org/10.1007/s11664-017-5986-7
  17. Evan M. Anderson and Joanna M. Millunchick, “The atomistic mechanism for Sb segregation and As displacement of Sb in InSb(001) surfaces,” Surface Science 667 45 (2018); doi:10.1016/j.susc.2017.09.014
  18. I. Ramiro, J. Villa, C. Tablero, E. Antolín, A. Luque, A. Martí, J. Hwang, J. Phillips, A. J. Martin, and J. Millunchick, “Analysis of the intermediate-band absorption properties of type-II GaSb/GaAs quantum-dot photovoltaics,” Physical Review B 96 125422 (2017); doi: : 10.1103/PhysRevB.96.125422
  19. C. Ryan Tait, Lifan Yan, and Joanna M. Millunchick, “Droplet induced compositional inhomogeneities in GaAsBi,” Applied Physics Letters 111 042105 (2017); doi: 10.1063/1.4996537
  20. Arnab Hazari, Fu Chen Hsiao, Lifan Yan, Junseok Heo, Joanna M. Millunchick, John Dallesasse, and Pallab Bhattacharya, “1.3µm Optical Interconnect on Silicon: A Monolithic III-Nitride Nanowire Photonic Integrated Circuit,” IEEE Journal of Quantum Electronics 53 6300109 (2017)
  21. Evan M. Anderson, Adam M. Lundquist, Chris Pearson, Joanna M. MillunchickSurface intermixing by atomic scale roughening in Sb-terminated InAs,” Journal of Applied Physics 121, 095301 (2017); doi: 10.1063/1.4976682 
  22. Matt DeJarld, Lifan Yan, Marta Luengo-Kovac, Vanessa Sih, and Joanna Millunchick, Structural differences between capped GaSb nanostructures grown by Stranski- Krastanov and droplet epitaxy growth modes, Journal of Applied Physics 121 034301 (2017)
  23. Joi-Lynn Mondisa, Joanna Millunchick, Cinda Davis, Darryl Koch, “The University of Michigan’s  M-STEM Academies Program: Examining the Social Community of Future Engineers,” Paper presented at the 46th  Frontiers in Education Conference (2016) DOI: 10.1109/FIE.2016.7757747
  24. Arnab Hazari, Md. Zunaid Baten, Lifan Yan, Joanna M. Millunchick, and Pallab Bhattacharya, “An InN/InGaN/GaN nanowire array guided wave photodiode on silicon,” Applied Physics Letters 109191102 (2016)
  25. Iñigo Ramiro, Elisa Antolín, Jinyoung Hwang, Alan Teran, Andrew J. Martin, Joanna Millunchick, Jamie Phillips, Antonio Martí, and Antonio Luque, “Three-Bandgap Absolute Quantum Efficiency in GaSb/GaAs Quantum Dot Intermediate Band Solar Cells,” IEEE Journal of Photovoltaics (2016) DOI:10.1109/JPHOTOV.2016.2637658
  26. Matt DeJarld, Alan Teran, Marta Luengo-Kovac, Lifan Yan, Eun Seong Moon, Sara Beck, Cristina Guillen, Vanessa Sih, Jamie Phillips, Joanna M. Millunchick, “The effect of doping on low temperature growth of high quality GaAs nanowires on polycrystalline films,” Nanotechnology 27 495605  (2016) DOI:10.1088/0957-4484/27/49/495605. Cover Article
  27. Garrett V. Rodriguez and Joanna M. Millunchick. “Predictive modeling of low solubility semiconductor alloys”, Journal Of Applied Physics 120 125310 (2016)
  28. C. R. Tait and J. M. Millunchick, “The Kinetics of droplet formation and Bi incorporation in GaSbBi alloys,” Journal of Applied Physics 119 215302 (2016)
  29. M. Gonzales and J. M. Millunchick, “Extracurricular Engineering Activities and College Success,” Proceedings of the American Society of Engineering Education, 14618 (2016)
  30. T. Frost, A. Hazari, A. Aiello, M. Z. Baten, L. Yan, J. Mirecki-Millunchick, P. Bhattacharya, “High performance red-emitting multiple layer InGaN/GaN quantum dot lasers,” Japanese Journal Of Applied Physics 55  032101 (2016)  
  31.  S.P. Svensson, W.L. Sarney, B.C. Connelly, E.M. Anderson, J.M. Millunchick, “Growth Temperature and Surfactant Effects on the Properties of Mixed Group V Alloys,” Journal of Crystal Growth 425 (2015) 234–236
  32. Shafat Jahangir, Thomas Frost, Arnab Hazari, Lifan Yan, Ethan Stark, Trevor LaMountain, Joanna M. Millunchick , Boon S. Ooi, and Pallab Bhattacharya “Small Signal Modulation Characteristics of Red-Emitting (λ = 610nm) III-Nitride Nanowire Array Lasers on (001) Silicon” Applied Physics Letters 06071108 (2015)
  33. Lifan Yan, Shafat Jahangir, Scott A Wight, Babak Nikoobakht, Pallab Bhattacharya, Joanna M. Millunchick, “Structural and Optical Properties of Disc-in-Wire InGaN/GaN LEDs,” Nano Letters 15 1535 (2015) DOI: 10.1021/nl503826k
  34. Saniya Deshpande, Thomas Frost, Lifan Yan, Shafat Jahangir, Arnab Hazari, Xianhe Liu, Joanna Millunchick, Zetian Mi, Pallab Bhattacharya, “On the formation and nature of InGaN quantum dots in GaN nanowires,” Nano Letters (2015) DOI: 10.1021/nl5041989
  35. William A. O’Brien, Meng Qi, Lifan Yan, Chad A. Stephenson, Vladimir Protasenko, Huili (Grace) Xing, Joanna M. Millunchick and Mark A. Wistey, “Self-Assembled Ge QDs Formed by High Temperature Annealing on Al(Ga)As (001)," Journal of Electronic Materials (2015) Journal of Electronic Materials (2015) DOI: 10.1007/s11664-014-3583-6 WON BEST PAPER AWARD
  36. Wendy Sarney, Stefan P. Svensson, Evan Anderson, Adam Lundquist, Peter J. Carrington, Chris Pearson, and Joanna M. Millunchick. “The influence of growth temperature on Sb incorporation in InAsSb, and the temperature-dependent impact of Bi surfactants,” Journal of Crystal Growth 406 8 (2014)
  37. Jinyoung Hwang, Kyusang Lee, Alan Teran, Stephen Forrest, and Jamie D. Phillips, Andrew J. Martin and Joanna Millunchick,” Multi-Photon Sub-bandgap Photoconductivity and Critical Transition Temperature in Type-II GaSb Quantum Dot Intermediate Band Solar Cells,” Physical Review Applied 1051003 (2014)
  38. E. P. Smakman, M. DeJarld, A.J. Martin, Marta Luengo-Kovak, Vanessa Sih, P. M. Koenraad,and J. Millunchick, “Shape Stabilization of GaSb/GaAs Quantum Dots by Al-Rich Capping,” APL Materials 2096111 (2014)
  39. John C. Thomas, Joanna Mirecki Millunchick, Anton Van der Ven, and Normand A. Modine, “Surface Atomic Structure of the InAs Wetting Layer on GaAs(001) from First Principles,” Physical Review B 89205306 (2014)
  40. Evan Anderson, Adam Lundquist, Wendy Sarney, Stefan P. Svensson, Peter J. Carrington, Chris Pearson, and Joanna M. Millunchick, Influence of Bi flux on Sb incorporation and film quality of InAsSb alloys" Journal of Applied Physics 116, 014901 (2014)
  41. S. Jahangir, T. Schimpke, M. Strassburg, K. A. Grossklaus, J. M. Millunchick, and P. Bhattacharya, “Red -Emitting (=610 nm) In0.51Ga0.49N/GaN Disk-in-Nanowire Light Emitting Diodes on Silicon.” IEEE Quantum Electronics 50 530 (2014)
  42. Chu-Hsiang Teng, Lei Zhang, Lifan Yan, Joanna Millunchick, Hui Deng, P.C. Ku, “Limitation of Quantum Dot Inhomogeniety by Random Ternary Alloy Effect,” Proceedings of the International symposium on compound semiconductor (ISCS 2014). 
  43. Adam Duzik and Joanna M. Millunchick, “Surface Reconstruction Stability of Bi/GaSb Surfaces,” Journal of Applied Physics 116 023511 (2014)
  44. J. E. Bickel, J. Mirecki Millunchick, “The Impact of the Initial Surface Reconstruction on Heteroepitaxial Film Growth and Defect Formation,”Physica Scripta Phys. Scr. 89 075707 (2014).
  45.  Jinyoung Hwang, Andrew Martin, Kyusang Lee, Stephen Forrest, Joanna Millunchick, and Jamie Phillips, Preserving Voltage and Long Wavelength Photoresponse in GaSb/GaAs Quantum Dot Solar Cells,” 39th IEEE Photovoltaic Specialists Conference Proceedings 3191
  46. Monica Bollani, Sergio Bietti, Cesare Frigeri, Daniel Chrastina, Kris Reyes, Peter Smereka, Joanna Mirecki-Millunchick, GianMaria Vanacore, Manfred Burghammer, Alberto Tagliaferri, Stefano Sanguinetti, “Ordered Arrays of Embedded Ga Nanoparticles on Patterned Silicon Substrates,” Nanotechnology 25 205301 (2014)   
  47. M. DeJarld, D. Nothern, and J. M. Millunchick, “VLS growth of Bi catalyzed GaAs nano-discs,” Journal of Applied Physics 115 114307 (2014)
  48. Jinyoung Hwang, Kyusang Lee, Alan Teran, Stephen Forrest, Jamie D. Phillips, Andrew J. Martin, and Joanna Millunchick Multiphoton Sub-Band-Gap Photoconductivity and Critical Transition Temperature in Type-II GaSb Quantum-Dot Intermediate-Band Solar Cells Phys. Rev. Applied 1, 051003 (2014)
  49. Adam Duzik and Joanna M. Millunchick, “Surface Morphology and Bi Incorporation in GaSbBi(As)/GaSb Films,” Journal of Crystal Growth 390  5–11 (2014)
  50. Cynthia Finelli and Joanna Mirecki Millunchick, The Teaching Circle for Large Engineering Courses: Clearing the Activation Barrier, Proceedings of the American Society of Engineering Education (2013)
  51. Joanna M Millunchick, Evan M. Anderson, Chris Pearson, Wendy L. Sarney and Stefan P. Svensson, “Incorporation Kinetics in Mixed Anion Compound Semiconductor Alloys,” Journal Of Applied Physics 114,234907 (2013)
  52. E. S. Zech, A. S. Chang, A. J. Martin, J. C. Canniff, Y.H. Lin, J. M. Millunchick, R. S. Goldman, Influence of GaAs Surface Termination on GaSb/GaAs Quantum Dot Structure and Band Offsets, Applied Physics Letters 103 082107 (2013)
  53. Andrew J. Martin, Allen H. Hunter, Timothy W. Saucer, Garrett V. Rodriguez, Vanessa Sih, Emmanuelle Marquis, Joanna Millunchick, “Atom probe tomography analysis of different modes of Sb intermixing in GaSb quantum dots and wells.” Applied Physics Letters 103 122103 (2013)
  54. Marta Luengo-Kovac, Timothy W. Saucer, Andrew Martin, Joanna Millunchick, Vanessa Sih, “Atomic force microscopy of vertically stacked, focused ion beam induced quantum dots,” Journal of Vacuum Science and Technology 31 031208 (2013)
  55. Andrew Martin, Timothy W. Saucer, Vanessa Sih, Joanna Millunchick, “Effects of pre-determined lateral separation on quantum dot size and dissolution,” Applied Physics Letters 102 182105 (2013)
  56. Kristofer Reyes, Peter Smereka, Denis Nothern, Joanna Mirecki Millunchick, Claudio Somaschini, Sergio Bietti, Cesare Frigeri, and Stefano Sanguinetti, A unified model of droplet epitaxy for compound semiconductors: experiments and theory.  Physical Review B 87, 165406 (2013) 
  57. Andrew J. Martin, Jinyoung Hwang, Emmanuelle A. Marquis, Erwin Smakman, Allen Hunter, Timothy W. Saucer, Garret V. Rodriguez, Vanessa Sih, Paul M. Koenraad, Jamie D. Phillips, Joanna Millunchick, The disintegration of GaSb/GaAs nanostructures upon capping.  Applied Physics Letters 102 113103 (2013)

 

 

 

 

  1. Batool, Z, Chatterjee, S, Chernikov, A, Duzik, A, Fritz, R, Gogineni, C, Hild, K, Hosea, TJC, Imhof, S, Johnson, SR, Jiang, Z, Jin, S, Koch, M, Koch, SW, Kolata, K, Lewis, RB, Lu, X, Masnadi-Shirazi, M, Millunchick, JM, Mooney, PM, Riordan, NA, Rubel, O, Sweeney, SJ, Thomas, JC, Thraenhardt, A, Tiedje, T, and Volz, K (2013). Bismuth-containing III-V semiconductors: Epitaxial growth and physical propertiesMOLECULAR BEAM EPITAXY: FROM RESEARCH TO MASS PRODUCTION,  In: , ed. by Henini, M, pp. 139-158.

  2. DeJarld, M, Reyes, K, Smereka, P, and Millunchick, JM (2013). Mechanisms of ring and island formation in lattice mismatched droplet epitaxy,  APPLIED PHYSICS LETTERS, 102(13).

  3. Duzik, A, Thomas, JC, van, dVA, and Millunchick, JM (2013). Surface reconstruction stability and configurational disorder on Bi-terminated GaAs(001),  PHYSICAL REVIEW B, 87(3).

  4. Grossklaus, KA, Banerjee, A, Jahangir, S, Bhattacharya, P, and Millunchick, JM (2013). Misorientation defects in coalesced self-catalyzed GaN nanowires,  JOURNAL OF CRYSTAL GROWTH, 371:142-147.

  5. Lee, J, Saucer, TW, Martin, AJ, Millunchick, JM, and Sih, V (2013). Time-Resolved Two-Pulse Excitation of Quantum Dots Coupled to a Photonic Crystal Cavity in the Purcell Regime,  PHYSICAL REVIEW LETTERS, 110(1).

  6. Lee, J, Saucer, TW, Martin, AJ, Tien, D, Millunchick, JM, and Sih, V (2013). Ground-state exciton emission of In As quantum dots produced by focused-ion-beam-directed nucleation,  JOURNAL OF LUMINESCENCE, 133:117-120.

  7. Luengo-Kovac, M, Saucer, TW, Martin, AJ, Millunchick, J, and Sih, V (2013). Analyzing pattern retention for multilayer focused ion beam induced quantum dot structures,  JOURNAL OF VACUUM SCIENCE \& TECHNOLOGY B, 31(3).

  8. Martin, AJ, Hunter, AH, Saucer, TW, Sih, V, Marquis, EA, and Millunchick, J (2013). Atom probe tomography analysis of different modes of Sb intermixing in GaSb quantum dots and wells,  APPLIED PHYSICS LETTERS, 103(12).

  9. Martin, AJ, Hwang, J, Marquis, EA, Smakman, E, Saucer, TW, Rodriguez, GV, Hunter, AH, Sih, V, Koenraad, PM, Phillips, JD, and Millunchick, J (2013). The disintegration of GaSb/GaAs nanostructures upon cappingAPPLIED PHYSICS LETTERS, 102(11).

  10. Martin, AJ, Saucer, TW, Sih, V, and Millunchick, JM (2013). Effects of pre-determined lateral separation on quantum dot size and dissolution,  APPLIED PHYSICS LETTERS, 102(18).

  11. Millunchick, JM, Anderson, EM, Pearson, C, Sarney, WL, and Svensson, SP (2013). Incorporation kinetics in mixed anion compound semiconductor alloys,  JOURNAL OF APPLIED PHYSICS, 114(23).

  12. Reyes, K, Smereka, P, Nothern, D, Millunchick, JM, Bietti, S, Somaschini, C, Sanguinetti, S, and Frigeri, C (2013).Unified model of droplet epitaxy for compound semiconductor nanostructures: Experiments and theoryPHYSICAL REVIEW B, 87(16).

  13. Thomas, JC, Van, dVA, Millunchick, JM, Modine, N, and A (2013). Considerations for surface reconstruction stability prediction on GaAs(001),  PHYSICAL REVIEW B, 87(7).

  14. Zech, ES, Chang, AS, Martin, AJ, Canniff, JC, Lin, YH, Millunchick, JM, and Goldman, RS (2013). Influence of GaAs surface termination on GaSb/GaAs quantum dot structure and band offsets,  APPLIED PHYSICS LETTERS, 103(8).

  15. Duzik, A, Thomas, JC, Millunchick, JM, Lang, J, Punkkinen, MPJ, and Laukkanen, P (2012). Surface structure of bismuth terminated GaAs surfaces grown with molecular beam epitaxy,  SURFACE SCIENCE, 606(15-16):1203-1207.

  16. Green, KR, Pinder-Grover, T, and Millunchick, J (2012). Impact of Screencast Technology: Connecting the Perception of Usefulness and the Reality of Performance,  JOURNAL OF ENGINEERING EDUCATION, 101(4):717-737.

  17. Grossklaus, KA, Jokisaari, JR, Pan, XQ, and Millunchick, JM (2012). Electrical transport in ion beam created InAs nanospikes,  NANOTECHNOLOGY, 23(31).

  18. Hwang, J, Martin, AJ, Millunchick, JM, and Phillips, JD (2012). Thermal emission in type-II GaSb/GaAs quantum dots and prospects for intermediate band solar energy conversion,  JOURNAL OF APPLIED PHYSICS, 111(7).

  19. Martin, AJ, Saucer, TW, Rodriguez, GV, Sih, V, and Millunchick, JM (2012). Lateral patterning of multilayer InAs/GaAs(001) quantum dot structures by in vacuo focused ion beam,  NANOTECHNOLOGY, 23(13).

  20. Martin, AJ, Saucer, TW, Sun, K, Kim, SJ, Ran, G, Rodriguez, GV, Pan, X, Sih, V, and Millunchick, J (2012). Analysis of defect-free GaSb/GaAs(001) quantum dots grown on the Sb-terminated (2 x 8) surface,  JOURNAL OF VACUUM SCIENCE \& TECHNOLOGY B, 30(2).

  21. Nothern, DM and Millunchick, JM (2012). Template-dependent nucleation of metallic droplets,  JOURNAL OF VACUUM SCIENCE \& TECHNOLOGY B, 30(6).

  22. Deng, D, Nothern, D, Liaw, D, Liu, T, Peterson, P, Gilchrist, B, and Millunchick, J (2011). Modeling, design and fabrication of a freestanding nanoporous membrane,  MICROELECTRONIC ENGINEERING, 88(11):3219-3223.

  23. Grossklaus, KA and Millunchick, JM (2011). Focused ion beam creation and templating of InAs and InAs/InP nanospikes,  NANOTECHNOLOGY, 22(35).

  24. Grossklaus, KA and Millunchick, JM (2011). Mechanisms of nanodot formation under focused ion beam irradiation in compound semiconductors,  JOURNAL OF APPLIED PHYSICS, 109(1).

  25. Lee, J, Saucer, TW, Martin, AJ, Tien, D, Millunchick, JM, and Sih, V (2011). Photoluminescence Imaging of Focused Ion Beam Induced Individual Quantum Dots,  NANO LETTERS, 11(3):1040-1043.

  26. Saucer, TW, Lee, J, Martin, AJ, Tien, D, Millunchick, JM, and Sih, V (2011). Photoluminescence of patterned arrays of vertically stacked InAs/GaAs quantum dots,  SOLID STATE COMMUNICATIONS, 151(4):269-271.

  27. Sears, L, Riposan, A, and Millunchick, JM (2010). Inverse Stranski-Krastanov growth in InGaAs/InPJOURNAL OF VACUUM SCIENCE \& TECHNOLOGY A, 28(5):1175-1180.

  28. Solomon, MJ, Zeitoun, R, Ortiz, D, Sung, KE, Deng, D, Shah, A, Burns, MA, Glotzer, SC, and Millunchick, JM (2010). Toward Assembly of Non-close-packed Colloidal Structures from Anisotropic Pentamer ParticlesMACROMOLECULAR RAPID COMMUNICATIONS, 31(2, SI):196-201.

  29. Thomas, JC, Modine, N, A, Millunchick, JM, and Van, dVA (2010). Systematic approach for determination of equilibrium atomic surface structure,  PHYSICAL REVIEW B, 82(16).

  30. Bickel, JE, Pearson, C, and Millunchick, JM (2009). Determining the GaSb/GaAs-(2x8) Reconstructionsubmitted to Surface Science.

  31. Bickel, JE, Pearson, C, and Millunchick, JM (2009). Sb incorporation at GaAs(001)-(2x4) surfaces,  Surface Science, 603(1):14-21.

  32. Lee, JY, Noordhoek, M, McKay, H, Millunchick, JM, and Smereka, P (2009). Filling of Hole Arrays by InAs Quantum Dots,  submitted to Nanotechnology(28).

  33. Pinder-Grover, T, Millunchick, JM, Bierwert, C, and Shuller, L (2009). Leveraging Screencasts to Strategically Clarify Unclear Materials Science Concepts,  Paper presented at the American Society of Engineering Education.

  34. Pinder-Grover, T, Millunchick, JM, Bierwert, C, and Shuller, L (2009). The Efficacy of Screencasts on Diverse Students in a Large Lecture Course,  Paper presented at the American Society of Engineering Education.

  35. Sears, L, Riposan, A, and Millunchick, JM (2009). Inverse Stranski Krastanov Growth in InGaAs/InPsubmitted to Journal of Crystal Growth.

  36. Thomas, JC, Millunchick, JM, Modine, NA, and Ven, AVd (2009). Surface Order of Nanostructured Compound III-V Semiconductor Alloys,  sumbitted to Physical Review B.

  37. Bickel, J, Modine, NA, Ven, AVd, Pearson, C, and Millunchick, JM (2008). Atomic size mismatch strain induced surface reconstructions,  Applied Physics Letters, 92(6).

  38. Bickel, JE, Modine, NA, Pearson, C, and Millunchick, JM (2008). Elastically induced coexistence of surface reconstructions,  Phys. Rev. B, 77(12).

  39. Cionca, C, Riposan, A, Kumah, DP, Walko, NSHDA, Yacoby, Y, Millunchick, JM, and Roy Clarke (2008). Strain and composition mapping of epitaxial nanostructures,  Applied Physics Letters, 92(15).

  40. Kumah, JD, Riposan, A, Cionca, C, Husseini, N, Clarke, R, Lee, J, Millunchick, JM, Yacoby, Y, Schlepuetz, C, Bjorck, M, and Willmott, P (2008). Resonant Coherent Bragg Rod Analysis of Strained Epitaxial Heterostructures,  Applied Physics Letters, 93(8).

  41. Lee, JY, Pearson, C, and Millunchick, JM (2008). Arsenic dependence on the morphology of ultra-thin GaAs layers on InGaAs/InP(001),  Journal of Applied Physics, 103(10).

  42. Pinder-Grover, 5T, Millunchick, JM, and Bierwert, C (2008). Work in progress: Using screecasts to enhance student learning in a large lecture Materials Science and Engineering course,  Paper presented at the 38th IEEE/ASEE Frontiers in Education.

  43. Sears, L, Millunchick, J, and Pearson, C (2008). The Coexistence of Surface Reconstruction Domains on Strained Heteroepitaxial Films,  Journal of Vacuum Science and Technology B, 26(6):1948-1948.

  44. Sung, K, Mukhija, D, Vanapalli, S, McKay, H, Millunchick, J, Burns, M, and Solomon, M (2008). Programmable fluidic synthesis of microparticles with configurable anisotropy,  Journal of the American Chemical Society, 130:1335-1340.

  45. Vanapalli, SA, Iacovella, CR, Sung, KE, Mukhija, D, Millunchick, JM, Burns, MA, Glotzer, SC, and Solomon, MJ (2008). Fluidic Assembly and Packing of Microspheres in Confined Channels,  Langmuir, 24:3661-3670.

  46. Cionca, C, Walko, DA, Yacoby, Y, Dorin, C, Millunchick, JM, and Clarke, R (2007). Interfacial Structure, Bonding and Composition of InAs and GaSb Thin Films Determined Using Coherent Bragg Rod Analysis,  Physical Review B, 75(11).

  47. McKay, HA, Dehne, A, Lee, JY, and Millunchick, JM (2007). Focused-ion-beam-directed nucleation of InAs quantum dots,  Applied Physics Letters, 90(16).

  48. McKay, HA, Dehne, A, Rudzinski, P, and Millunchick, JM (2007). Focused ion beam modification of surfaces for directed self assembly of InAs/GaAs(001) quantum dots,  Nanotechnology, 18(45).

  49. Riposan, A, Pearson, C, and Millunchick, JM (2007). Critical film thickness dependence on As flux in In0.27Ga0.73As/GaAs(001),  Applied Physics Letters, 90(9).

  50. Riposan, A, Millunchick, JM, and Pearson, C (2006). Strain mediated reconstructions and indium segregation on InGaAs/GaAs(001) alloy surfaces at intermediate lattice mismatch,  Journal of Vacuum Science and Technology, 24(6):2041-2048.

  51. Rodriguez, BP and Millunchick, JM (2006). Dislocation dynamics in strain relaxation in GaAsSb/GaAs heteroepitaxy,  Journal of Applied Physics, 100(4).

  52. Clarke, R, Cionca, C, Dorin, C, Rodriguez, BP, Millunchick, JM, Walko, DA, and Yacoby, Y (2005). Proceedings of SPIE,  The International Society for Optical Engineering, 5838(10).

  53. Dorin, C, Millunchick, JM, Wauchope, C, and Pearson, C (2005). Engineering lateral composition modulation in GaAsSb multilayers,  Journal of Crystal Growth, 283(1-2):8-14.

  54. Yoh, K, Ferhat, M, Riposan, A, and Millunchick, JM (2005). Room temperature spin dependent current modulation in an InGaAs-based spin transistor with ferromagnetic contact,  AIP Conf. Proc., 772:1315-1316.

  55. Bouville, M, Millunchick, J, and Falk, M (2004). Pit Nucleation In The Presence Of Three-Dimensional Islands During Heteroepitaxial Growth,  Physical Review B, 70(23).

  56. Millunchick, J, Riposan, A, Dall, B, Pearson, C, and Orr, B (2004). Surface Reconstructions Of Ingaas AlloysSurface Science, 550(1-3):1.

  57. Pearson, C, Dorin, C, Millunchick, J, and Orr, B (2004). Imaging The Evolution Of Lateral Composition Modulation In Strained Alloy Superlattices,  Physical Review Letters, 92(5).

  58. Pearson, CA, Dorin, C, Millunchick, JM, and Orr, BG (2004). Origins of lateral composition modulation in short period superlattices,  Physical Review Letters, 92(5).

  59. Perez-Rodriguez, B and Millunchick, JM (2004). Stress and morphologcial evolution in InGaAs/GaAs layersJournal of Crystal Growth, 264(64).

  60. Rodriguez, B and Millunchick, J (2004). The Role Of Morphology In The Relaxation Of Strain In Ingaas/GaasJournal Of Crystal Growth, 264(1-3):64.

  61. Dorin, C, Millunchick, J, and Wauchope, C (2003). Intermixing And Lateral Composition Modulation In Gaas/Gasb Short Period Superlattices,  Journal Of Applied Physics, 94(3):1667.

  62. Millunchick, J, Riposan, A, Dall, B, Pearson, C, and Orr, B (2003). Surface Reconstructions Of In-Enriched Ingaas Alloys,  Applied Physics Letters, 83(7):1361.

  63. Riposan, A, Martin, G, and Millunchick, J (2003). Step Instability And Island Formation During Annealing Of Pseudomorphic Ingaas/Gaas Layers,  Applied Physics Letters, 83(22):4518.

  64. Riposan, A, Martin, G, Bouville, M, Falk, M, and Millunchick, J (2003). The Effect Of Island Density On Pit Nucleation In In0.27ga0.73as/Gaas Films,  Surface Science, 525(1-3):222.

  65. Chokshi, N, Bouville, M, and Millunchick, J (2002). Pit Formation During The Morphological Evolution Of Ingaas/Gaas,  Journal Of Crystal Growth, 236(4):563.

  66. Dorin, C and Millunchick, J (2002). Lateral Composition Modulation In Alas/Inas And Gaas/Inas Short Period Superlattices Structures: The Role Of Surface Segregation,  Journal Of Applied Physics, 91(1):237.

  67. Dorin, C, Millunchick, J, and Wauchope, C (2002). Lateral Composition Modulation In Mixed Anion Multilayers,  Applied Physics Letters, 81(18):3368.

  68. Dorin, C, Wauchope, C, and Millunchick, JM (2002). Lateral composition modulation in mixed anion short period superlattices,  Current Issues in Heteroepitaxial Growth-Stress Relaxation and Self Assembly:51.

  69. Pearson, CA, Dorin, C, Millunchick, JM, Chen, YQ, and Orr, BG (2002). Compositionally modulated structures studied by in situ scanning tunneling microscopy,  Current Issues in Heteroepitaxial Growth-Stress Relaxation and Self Assembly:247.

  70. Riposan, A, Martin, GKM, Bouville, M, Falk, ML, and Millunchick, JM (2002). Island and pit formation during growth and annealing of InGaAs/GaAs films, in Current Issues,  Materials Research Society symposia proceedings, 696:201-206.

  71. Dorin, C, Millunchick, J, Chen, Y, Orr, B, and Pearson, C (2001). Lateral Composition Modulation In Short Period Superlattices: The Role Of Growth Mode,  Applied Physics Letters, 79(25):4118.

  72. Lubyshev, D, Liu, W, Stewart, T, Cornfeld, A, Fang, X, Xu, X, Specht, P, Kisielowski, C, Naidenkova, M, Goorsky, M, Whelan, C, Hoke, W, Marsh, P, Millunchick, J, and Svensson, S (2001). Strain Relaxation And Dislocation Filtering In Metamorphic High Electron Mobility Transistor Structures Grown On Gaas SubstratesJournal Of Vacuum Science & Technology B, 19(4):1510.

  73. Chokshi, N and Millunchick, J (2000). Cooperative Nucleation Leading To Ripple Formation In Ingaas/Gaas Films,  Applied Physics Letters, 76(17):2382.

  74. Follstaedt, DM, Lee, SR, Reno, JL, Jones, ED, Twesten, RD, Norman, AG, Ahrenkiel, SP, Moutinho, HR, Mascarenhas, A, and Millunchick, JM (2000). Reciprocal-space and real-space analyses of compositional modulation in InAs/AlAs short-period superlattices,  Materials Research Society symposia proceedings, 583:333-347.

  75. Lubyshev, D, Liu, WK, Stewart, T, Cornfeld, AB, Patton, J, Millunchick, JM, Hoke, W, Marsh, PF, Meaton, C, Nichols, K, and Svensson, SP (2000). MBE growth of high quality metamorphic HEMT structures on GaAs2000 International Conference on Indium Phosphide and Related Materials, Conference Proceedings:392.

  76. Norman, AG, Ahrenkiel, SP, Moutinho, HR, Ballif, C, Al-Jassim, MM, Mascarenhas, A, Follstaedt, DM, Lee, SR, Reno, JL, Jones, ED, Mirecki-Millunchick, J, and Twesten, RD (2000). The nature and origin of lateral composition modulations in short- period strained-layer superlattices,  Self-Organized Processes in Semiconductor Alloys:297.

  77. Seshadri, A and Millunchick, JM (2000). Morphological evolution in highly strained InSb/InAs(001)Materials Research Society symposia proceedings, 618:103 -108.

  78. Jones, E, Follstaedt, D, Lee, S, Reno, J, Millunchick, J, Ahrenkiel, S, Mascarenhas, A, Norman, A, Zhang, Y, and Twesten, R (1999). Photoluminescence Studies Of Lateral Composition Modulated Short-Period Alas/Inas Superlattices,  Thin Solid Films, 357(1):31.

  79. Lee, S, Millunchick, J, Twesten, R, Follstaedt, D, Reno, J, Ahrenkiel, S, and Norman, A (1999). Reciprocal-Space Analysis Of Compositional Modulation In Short-Period Superlattices Using Position-Sensitive X-Ray Detection,  Journal Of Materials Science-Materials In Electronics, 10(3):191.

  80. Twesten, R, Follstaedt, D, Lee, S, Jones, E, Reno, J, Millunchick, J, Norman, A, Ahrenkiel, S, and Mascarenhas, A (1999). Characterizing Composition Modulations In Inas/Alas Short-Period Superlattices,  Physical Review B, 60(19):13619-13635.

  81. Ahrenkiel, SP, Norman, AG, Al-Jassim, MM, Mascarenhas, A, Mirecki-Millunchick, J, Twesten, RD, Lee, SR, Follstaedt, DM, and Jones, ED (1998). Laterally modulated composition profiles in AlAs/InAs short- period superlattices,  J. Appl. Phys, 84(60).

  82. Follstaedt, D, Twesten, R, Millunchick, J, Lee, S, Jones, E, Ahrenkiel, S, Zhang, Y, and Mascarenhas, A (1998).Spontaneous Lateral Composition Modulation In Inalas And Ingaas Short-Period Superlattices,  Physica E, 2(1-4):325.

  83. Jones, E, Millunchick, J, Follstaedt, D, Lee, S, Reno, J, Twesten, R, Zhang, Y, and Mascarenhas, A (1998).Detection Of Lateral Composition Modulation By Magnetoexciton Spectroscopy,  Physica E, 2(1-4):44.

  84. Norman, A, Ahrenkiel, S, Moutinho, H, Al-Jassim, M, Mascarenhas, A, Millunchick, J, Lee, S, Twesten, R, Follstaedt, D, Reno, J, and Jones, E (1998). Strain-Dependent Morphology Of Spontaneous Lateral Composition Modulations In Alasm(Inas)(N) Short-Period Superlattices Grown By Molecular Beam Epitaxy,  Applied Physics Letters, 73(13):1844.

  85. Yashar, P, Pillai, MR, Mirecki-Millunchick, J, and Barnett, SA (1998). X-ray diffraction measurement of segregation-induced interface broadening in InxGa1-xAs/GaAs superlattices,  J. Appl. Phys, 83(20).

  86. Jones, ED, Millunchick, JM, Follstaedt, D, Hafich, M, Lee, S, Reno, J, Twesten, R, Zhang, Y, and Mascarenhas, A (1997). Detection of lateral composition modulation in a (InAs)(n)/(GaAs)(n) short period superlattice on InP by magnetoexciton spectroscopy,  Physics and Simulation of Optoelectronic Devices:468.

  87. Mascarenhas, A, Zhang, Y, Millunchick, JM, Twesten, RD, and Jones, ED (1997). Lateral superlattice solar cells,  Future Generation Photovoltaic Technologies:303.

  88. Millunchick, J, Twesten, R, Follstaedt, D, Lee, S, Jones, E, Zhang, Y, Ahrenkiel, S, and Mascarenhas, A (1997).Lateral Composition Modulation In Alas/Inas Short Period Superlattices Grown On Inp(001),  Applied Physics Letters, 70(11):1402.

  89. Millunchick, J, Twesten, R, Lee, S, Follstaedt, D, Jones, E, Ahrenkiel, S, Zhang, Y, Cheong, H, and Mascarenhas, A (1997). Spontaneous Lateral Composition Modulation In Alas/Inas Short Period Superlattices Via The Growth Front,  Journal Of Electronic Materials, 26, Number 9:1048-1052.

  90. Millunchick, J, Twesten, R, Lee, S, Follstaedt, D, Jones, E, Ahrenkiel, S, Zhang, Y, Cheong, H, and Mascarenhas, A (1997). Spontaneous Lateral Composition Modulation In Iii-V Semiconductor Alloys,  MRS Bulletin, 22(7):38-43.

  91. Millunchick, JM, Twesten, RD, Lee, SR, Follstaedt, DM, Jones, ED, Ahrenkiel, SP, Zhang, Y, Cheong, HM, and Mascarenhas, A (1997). Spontaneous lateral composition modulation in AlAs/InAs short period superlattices via the growth front,  J. Electron. Mater., 26(9):1048-1052.

  92. Millunchick, JM, Twesten, RD, Lee, SR, Follstaedt, DM, Jones, ED, Ahrenkiel, SP, Zhang, Y, Cheong, HM, and Mascarenhas, A (1997). Spontaneous lateral composition modulation in III-V semiconductor alloys,  MRS Bull, 22(38).

  93. Twesten, RD, Millunchick, JM, Ahrenkiel, SP, Zhang, Y, Lee, SR, Follstaedt, DM, Mascarenhas, A, and Jones, ED (1997). Microstructure of compositionally modulated InAlAs, in Thin Films,  Structure and Morphology:187.

  94. Millunchick, J, Hultman, L, and Barnett, S (1995). Effect Of 20-95 Ev Ar Ion-Bombardment Of Gaas(001) - In Pursuit Of Damage-Free Ion-Assisted Growth And Etching,  Journal Of Vacuum Science & Technology A-Vacuum Surfaces And Films, 13(3):1155.

  95. Millunchick, J and Barnett, S (1994). Suppression Of Strain Relaxation And Roughening Of Ingaas On Gaas Using Ion-Assisted Molecular-Beam Epitaxy,  Applied Physics Letters, 65(9):1136.

  96. Millunchick, JM and Barnett, SA (1994). Suppression of Strain Relaxation and Roughening of InGaAs on GaAs Using Ion-Assisted Molecular-Beam Epitaxy,  Appl. Phys. Lett.(65):1136.

  97. Barnett, SA, Choi, CH, Kaspi, R, and Millunchick, JM (1993). Ion-Assisted Deposition of Thin-FilmsInternational Conference on Beam Processing of Advanced Materials:561.