Jay A. Switzer - Selected Publications

 

 

1.      J. A. Switzer, M. J. Shane, and R. J. Phillips, "Electrodeposited Ceramic Superlattices," Science  247, 444 (1990).  Reviewed in Chemical and Engineering News, January 22, 1990, page 22.

 

2.      J. A. Switzer, R. P. Raffaelle, R. J. Phillips, Chen-Jen Hung, and Teresa D. Golden, "Scanning Tunneling Microscopy of Electrodeposited Ceramic Superlattices," Science  258, 1918 (1992). Reviewed in December 21, 1992 issue of Chemical and Engineering News.

 

3.      B. E. Breyfogle, R. J. Phillips, and J. A. Switzer, "Epitaxial Electrodeposition of Ag(Ag₃O₄)₂NO₃ onto Highly-Oriented Conducting Metal Oxides in the Pb-Tl-O System," Chemistry of Materials  4, 1356 (1992).

 

4.      R. P. Raffaelle, T. D. Golden, and J. A. Switzer, "Cross-Sectional Scanning Tunneling Microscopy of Electrodeposited Metal Oxide Superlattices," Appl. Phys. Lett., 63, 1501 (1993).

 

5.      J. A. Switzer and T. D. Golden, "Scanning Tunneling Microscopy of Nanoscale Electrodeposited Superlattices," Advanced Materials  5, 474 (1993).

 

6.      J. A. Switzer, C. J. Hung, B. E. Breyfogle, M. G. Shumsky, R. Van Leeuwen, and T. D. Golden,  "Electrodeposited Defect-Chemistry Superlattices," Science 264, 1573 (1994). Reviewed in Science News 145, 390 (June, 1994), Ceramic Bulletin 73, 22 (August, 1994), and the MRS Bulletin, p. 8 (August, 1994).

 

7.      R. J. Phillips, T. D. Golden, and J. A. Switzer, "Evolution of Crystallinity During the Electrodeposition of bcc Thallium(III) Oxide onto Glassy Carbon," J. Electrochem. Soc.  141, 2391 (1994).

 

8.      R. J. Phillips, T. D. Golden, and J. A. Switzer, "Composition Profiles in Electrodeposited Ceramic Superlattices," Appl. Phys. Lett.  66, 819 (1995).

 

9.      J. A. Switzer and K. G. Sheppard, "Thinking Really Small. The Electrodeposition of Nanoscale Epitaxial Architectures," Interface 4, 26 (1995). Invited feature article.

 

10.  Yanchun Zhou and J. A. Switzer, "Electrochemical Synthesis and Sintering Studies of Nanocrystalline Cerium(IV) Oxide Powder," J. Amer. Ceramic Society  78, 981 (1995).

 

11.  R. Van Leeuwen, C.J. Hung, D.R. Kammler, and J. A. Switzer, "Optical and Electronic Transport Properties of Electrodeposited Thallium(III) Oxide Films," J. Phys. Chem.  99, 15247, (1995).

 

12.  Y. Zhou and J. A. Switzer, “Growth of Cerium(IV) Oxide Films by the Electrochemical Generation of Base Method,” Journal of Alloys and Compounds  237, 1, (1996).

 

13.  B. E. Breyfogle, C.-J. Hung, M. G. Shumsky, and J. A. Switzer, “Electrodeposition of Silver(II) Oxide Films,” J. Electrochem. Soc.  143, 2741 (1996).

 

14.  T. D. Golden, M. G. Shumsky, Y. Zhou, R. A. VanderWerf, R. A. Van Leeuwen, and J. A. Switzer, “Electrochemical Deposition of Copper(I) Oxide Films,” Chem. Mater. 8, 2499 (1996).

 

15.  Jay A. Switzer, “Electrodeposition of Nanoscale Architectures,” Chapter 4, “Handbook of Nanophase Materials,” A. Goldstein, editor, Marcel Dekker, New York, pp. 63-82, (1996).

 

16.  J. A. Switzer, C.-J. Hung, E. W. Bohannan, M.G. Shumsky, T. D. Golden, and D. C. Van Aken, “Electrodeposition of Quantum-Confined Metal/Semiconductor Nanocomposites,” Advanced Materials 4, 334 (1997).

 

17.  R. J. Phillips, T. D. Golden, M. G. Shumsky, E. W. Bohannan, and J. A. Switzer, “Electrodeposition of Textured Ceramic Superlattices in the Pb-Tl-O System,” Chem. Mater. 9, 1670 (1997). Featured on cover of journal.

 

18.  L.-Y. Huang, E. W. Bohannan, C.-J. Hung, and J. A. Switzer, “Room-Temperature Electrochemical Assembly of Copper / Cuprous Oxide Nanocomposites,” Israel J. Chemistry  37, 297-301 (1998)

 

19.  C. -J. Hung, V. Gui, and J. A. Switzer, “Scanning Probe Nanolithography of Conducting Metal Oxides,” Appl. Phys. Lett. 71, 1637 (1997).

 

20.  J. A. Switzer,  C.-J. Hung, L. -Y. Huang, and E. R. Switzer, T. D. Golden, and E. W. Bohannan, “Electrochemical Self Assembly of Copper/Cuprous Oxide Layered Nano, structures,” J. Am. Chem. Soc., 120, 3530-3531 (1998). Reviewed in April 20, 1998 issue of Chemical and Engineering News.

 

21.  J. A. Switzer, C. -J. Hung, L. -Y. Huang, F. S. Miller, Y. Zhou, E. R. Raub, M. G. Shumsky, and E. W. Bohannan, “Potential Oscillations During the Electrochemical Self-Assembly of Copper/Cuprous Oxide Layered Nanostructures,” J. Mater. Res.  13, 909-916 (1998).

 

22.  E. W. Bohannan, L. -Y. Huang, F. S. Miller, Mark G. Shumsky,  and J. A. Switzer, “In situ Electrochemical Quartz Crystal Microbalance Studies of the Electrodeposition of Cu/Cu₂O Layered Nanostructures,” Langmuir, 15  813-818 (1999).

 

23.  J. A. Switzer, B. M. Maune, E. R. Raub, and E. W. Bohannan, “Negative Differential Resistance in Electrochemically Self-Assembled Layered Nanostructures,” J. Phys. Chem. B  Letters, 103, 395-398 (1999).

 

24.  J. A. Switzer, M. G. Shumsky, and E. W. Bohannan, “Electrodeposited Ceramic Single Crystals,” Science  284, 293-296 (1999).  Reviewed  in April 12, 1999  issue of Chemical and Engineering News.

 

25.  E. W. Bohannan, M. G. Shumsky, and J. A. Switzer, “Epitaxial Electrodeposition of Copper(I) Oxide on Single-Crystal Gold(100),” Chemistry of Materials  11, 2289-2291 (1999).  Featured on cover of journal.

 

26.  A. A. Vertegel, M. G. Shumsky, and J. A. Switzer, “Epitaxial Electrodeposition of Lead Sulfide on (100)-oriented Single Crystal Gold,” Angewandte Chemie Int. Ed.  38, 3169-3171 (1999).

 

27.  E. W. Bohannan, C. Jaynes, M. G. Shumsky, J. K. Barton, and J. A. Switzer, “Low Temperature Electrodeposition of the High-Temperature Cubic Polymorph of Bismuth(III) Oxide,” Solid State Ionics  131, 97-107 (2000).

 

28.  A. A. Vertegel, M. G. Shumsky, and J. A. Switzer, “Electrochemical Growth of a Cu₂O/PbS Epitaxial Heterojunction on Single Crystal Au(100),”  Chemistry of Materials  12, 596-598 (2000).

 

29.  R. Liu, A. A. Vertegel, E. W. Bohannan, and J. A. Switzer, “Epitaxial Electrodeposition of ZnO nanopillars on Single-crystal Gold,”  Chemistry of Materials  13, 508-512 (2001).

 

30.  A. A. Vertegel, M. G. Shumsky, and J. A. Switzer, “Epitaxial Electrodeposition of Thallic Oxide on Single-Crystal Gold,” Electrochimica Acta  45, 3233-3239 (2000).

 

31.  J. Barton, A. A. Vertegel, M. G. Shumsky, E. W. Bohannan, and J. A. Switzer, “Epitaxial Electrodeposition of Cuprous Oxide onto Single-Crystal Copper,” Chemistry of Materials  13, 952-959 (2001).

 

32.  M. P. Nikiforov, A. A. Vertegel, M. G. Shumsky, and J. A. Switzer, “Epitaxial Electrodeposition of Fe₃O₄ on Single-Crystal Au(111),” Advanced Materials 12, 1351-1353 (2000).

 

33.  A. A. Vertegel, E. W. Bohannan, M. G. Shumsky, and J. A. Switzer, “Epitaxial Electrodeposition of orthorhombic alpha-PbO₂ on (100)-oriented Single-Crystal Au,” J. Electrochem. Soc.  148, C253-C256 (2001).

 

34.  J. A. Switzer, “Electrodeposition of Superlattices and Multilayers,” Chapter 3 in “The Electrochemistry of Nanostructures: Preparation and Properties,” G. Hodes, editor, Wiley-VCH, Weinheim, pp. 67-101 (2001).

 

35.  J. A. Switzer, H.  M. Kothari, and E. W. Bohannan, “Thermodynamic to Kinetic Transition in Epitaxial Electrodeposition,” J. Phys. Chem. B., Letters  106, 4027-4031 (2002).

 

36.  H. M. Kothari, A. A. Vertegel, E. W. Bohannan, and J. A. Switzer, “Epitaxial Electrodeposition of Pb-Tl-O Superlattices on Single-Crystal Au(100),” Chemistry of Materials  14, 2750-2756 (2002).

 

37.  T. A. Sorenson, S. A. Morton, G. D. Waddill, and J. A. Switzer, “Epitaxial Electrodeposition of Fe₃O₄ Thin Films on the Low Index Planes of Gold,” J. Am. Chem. Soc.  124, 7604-7609 (2002).

 

38.  J. A. Switzer, R. Liu, E. W. Bohannan, and F. Ernst, “Epitaxial Electrodeposition of a Crystalline Oxide onto Single-Crystalline Silicon,” J. Phys. Chem. B 106, 12369-12372 (2002).

 

39.  F. Ernst and J. A. Switzer, “Microstructure of Cu₂O/Si Interfaces Made by Electrodeposition,” Zeitschrift fur Metallkunde. 94, 259-265 (2003).

 

40.  J. A. Hollingsworth, K. K. Banger, M. H. -C. Jin, J. D. Harris, J. E. Cowen, E. W. Bohannan, J. A. Switzer, W. E. Buhro, and A. F. Hepp, “Single Source Precursors for Fabrication of I-III-VI2 Thin-Film Solar Cells via Spray CVD,” Thin Solid Films 431-432, 63-65 (2003).

 

41.  P. Poizot, C. -J. Hung, M. P. Nikiforov, E. W. Bohannan, and J. A. Switzer, “An Electrochemical Method for CuO Thin Film Deposition from Aqueous Solution,” Electrochemical and Solid-State Letters 6(2), C21-C25 (2003).

 

42.  R. Liu, E. W. Bohannan, J. A. Switzer, F. Oba, and F. Ernst, “Epitaxial Electrodeposition of Cu₂O Films onto InP(001),” Applied Physics Letters 83, 1944-1946 (2003).

 

43.  J. A. Switzer, H. M. Kothari, P. Poizot, S. Nakanishi, and E. W. Bohannan, “Enantiospecific Electrodeposition of a Chiral Catalyst,” Nature  425, 490-493 (2003).  Reviewed as “News of the Week” in the October 6, 2003 issue of Chemical and Engineering News (Vol. 40, page 12). Reviewed in “Chemistry Highlights- 2003,” cover story in Chemical and Engineering News (Vol. 81, pages 46-47, December 22, 2003). Also reviewed in Ceramic Bulletin  January, 2004 (p. 4), Chemistry in Britain, November, 2003 (p. 9), Materials Research Society Bulletin  January, 2004 (p. 5), and La Recherche, December, 2003 (p. 14).

 

44.  S. Nakanishi, G. Lu, H. M. Kothari, E. W. Bohannan, and J. A. Switzer, “Epitaxial Electrodeposition of Prussian Blue Thin Films on Single-Crystal Au(110),” J. Am. Chem. Soc.  125, 14998-14999 (2003).

 

45.  R. Liu, F. Oba, E. W. Bohannan, F. Ernst, and J. A. Switzer, “Shape Control in Epitaxial Electrodeposition: Cu₂O Nanocubes on InP(001),” Chemistry of Materials  15, 4882-4885 (2003).

 

46.  E. W. Bohannan, H. M. Kothari, I. M. Nicic, and J. A. Switzer, “Enantiospecific Electrodeposition of Chiral CuO films on Single-Crystal Cu(111),” J. Am. Chem. Soc.  126, 488-489 (2004).

 

47.  H. M. Kothari, E. A. Kulp,  S. Boonsalee, M. P. Nikiforov, E. W. Bohannan, P. Poizot, S. Nakanishi, and J. A. Switzer, “Enantiospecific Electrodeposition of Chiral CuO Films from Aqueous Cu(II) Complexes of Tartaric and Amino Acids on Single-Crystal Au(001),” Chemistry of Materials  16, 4232-4244 (2004).

 

48.  J. A. Switzer, E. W. Bohannan, H. M. Kothari, and S. Nakanishi, “Enantiospecific Catalysts Prepared by Chiral Deposition,” U.S. Patent Application, filed July 2, 2004 by the University of Missouri, Docket #423.022US1.

 

49.  J. A. Switzer, “Chiral Electrodeposition,” Interface, invited feature article, pp. 34-38 (Winter, 2004). Featured on cover of magazine.

 

50.  Q. Li, E. C. Walter, W. E. van der Veer, B. J. Murray, J. T. Newberg, E. W. Bohannan, J. A. Switzer, J. C. Hemminger, and R. M. Penner, “Molybdenum Disulfide Nanowires and Nanoribbons by Electrochemical/Chemical Synthesis,” J. Phys. Chem. B   109, 3169-3182 (2005).

 

51.  R. Liu, E. A. Kulp, and J. A. Switzer, “Electrochemical Growth of Epitaxial Cuprous Oxide Thin Films on Low-Index Gold Single Crystals,” Journal of Materials Research, submitted for publication (2004).

 

52.  F. Oba, F. Ernst, Y. Yu, R. Liu, H. M. Kothari, and J. A. Switzer, “Epitaxial Growth of Cuprous Oxide Electrodeposited onto Semiconductor and Metal Substrates,” Journal of the American Ceramic Society, 88, 253-270 (2005). Invited feature article. Featured on cover of journal.

 

53.  R. Liu, F. Oba, E. W. Bohannan, F. Ernst, and J. A Switzer, “Epitaxial Electrodeposition of Ordered Cu₂O(110) Nanostructures on InP(111),” Chemistry of Materials 17, 725-729 (2005).

             

54. H. M. Kothari, E. A. Kulp, S. J. Limmer, P. Poizot, E. W. Bohannan, and J. A. Switzer, "Electrochemical deposition and characterization of magnetite films produced by the reduction of Fe(III)-triethanolamine," J. Mater. Res. 21, 293-301 (2006).

                          

55. J. A. Switzer, V. V. Rajasekharan, S. Boonsalee, E. A. Kulp, and E. W. Bohannan, "Evidence that monochloramine disinfectant could lead to elevated Pb levels in drinking water," Environ. Sci & Technol. 40, 3384-3387 (2006).

             

56. S.J. Limmer, E. A. Kulp, and J. A. Switzer, "Epitaxial electrodeposition of ZnO on Au(111) from aqueous solution: Exploiting amphoterism in Zn(II)," Langmuir 22, 10535-10539 (2006).

                    

57. S. J. Limmer, E. A. Kulp, E. W. Bohannan, and J. A. Switzer, "Electrodeposition of nanometer-thick ceria films by oxidation of cerium(III) aceetate," Solid State Ionics 178, 749-757 (2007).

                      

58. E. W. Bohannan, I. M. Nicic, H. M. Kothari, and J. A. Switzer, "Enantiospecifiic electrodeposition of chiral CuO films on single-crystal Cu from aqueous Cu(II) complexes of tartaric and amino acids," Electrochimica Acta 53, 155-160 (2007).

                   

59.  V. V. Rajasekharan, B. N. Clark, and J. A. Switzer, "Electrochemistry of free chlorine and monochloramine and its relevance to the presence of Pb in drinking water," Environmental Science and Technology 41, 4252-4257 (2007).

                 

60. S. K. Shaibal, N. Burla, E. W. Bohannan, and J. A. Switzer, "Enhancing enantioselectivity in electrodeposited CuO films by chiral etching," J. Am. Chem. Soc. 129, 8972-8973 (2007).

 

61. E. A. Kulp and J. A. Switzer, "Electrochemical biomineralization- the deposition of calcite with chiral morphologies," J. Am. Chem. Soc. 129, 15120-15121 (2007).

 

62. S. Sarkar, N. Burla, E. W. Bohannan, and J. A. Switzer, "Inducing enantioselectivity in electrodeposited CuO films by chiral etching," Electrochimica Acta 53, 6191-6195 (2008).

 

63. S. Boonsalee, R. V. Gudavarthy, E. W. Bohannan, and J. A. Switzer, "Epitaxial electrodeposition of tin(II) sulfide nanodisks on single-crystal Au(100)," Chem. Mater. 20, 5737-5742 (2008).

 

64. J. A. Switzer, H. M. Kothari, S. Nakanishi, and E. W. Bohannan, "Method of Preparing a Chiral Substrate Surface by Electrodeposition," U. S. Patent #7,361,261, Issued April 22, 2008.

65. G. Mu, R. V. Gudavarthy, E. A. Kulp, and J. A. Switzer, "Tilted epitaxial ZnO nanospears on Si(001) by chemical bath deposition," Chem. Mater. 21, 3960-3964 (2009).

66. E. A. Kulp, H. M. Kothari, S. J. Limmer, Y. Yang, R. V. Gudavarthy, E. W. Bohannan, and J. A. Switzer, "Electrodeposition of epitaxial magnetite films and ferrihydrite nanoribbons on single-crystal gold," Chem. Mater. 21, 5022-5031 (2009).

67. J. A. Switzer, R. V. Gudavarthy, E. A. Kulp, G. Mu, Z. He, and A. W. Wessel, "Resistance switching in electrodeposited magnetite superlattices," J. Am. Chem. Soc 132, 1258-1260 (2010).

68. J. A. Switzer and G. Hodes, "Electrodeposition and Chemical Bath Deposition of Functional Nanomaterials," MRS Bulletin 35, 743-750 (2010).

69. R. V. Gudavarthy, S. Gorantla, G. Mu, E. A. Kulp, T. Gemming, J. Eckert, and J. A. Switzer,"“Epitaxial electrodeposition of Fe3O4 on single-crystal Ni(111)" Chem. Mater. 23, 2017-2019 (2011).

70. R. V. Gudavarthy, N. Burla, E. A. Kulp, S. J. Limmer, E. Sinn, and J. A. Switzer, "Epitaxial electrodeposition of chiral CuO films from copper(II) complexes of malic acid on Cu(111) and Cu(110) single crystals" J. Mater. Chem. 21, 6209-6216 (2011)

71. Z. He, R. V. Gudavarthy, J. A. Koza, and J. A. Switzer, "Room-temperature electrochemical reduction of epitaxial magnetite films to epitaxial iron films," J. Am. Chem. Soc. 133, 12358-12361 (2011).

72. J. A. Koza, Z. He, A. S. Miller, and J. A. Switzer, "Resistance switching in electrodeposited VO2 thin films" Chem. Mater. 23, 4105-4108 (2011).

73. J. A. Koza, Z. He, A. S. Miller, and J. A. Switzer, "Electrodeposition of crystalline Co3O4 - a catalyst for the oxygen evolution reaction," Chem. Mater. 24, 3567-3573 (2012).

74. J. A. Switzer, "Atomic Layer Electrodeposition," Science (Perspective) 338, 1300-1301 (2012).

75. Z. He, J. A. Koza, G. Mu, A. S. Miller, E. W. Bohannan, and J. A. Switzer, "Electrodeposition of CoxFe3-xO4 epitaxial films and superlattices," Chem. Mater. 25, 223-232 (2013).

76. J. A. Koza, C. M. Hull, Y.-C. Liu, and J. A. Switzer, "Deposition of beta-Co(OH)2 films by electrochemical reduction of tris(ethylenediamine)cobalt(III) in alkaline solution," Chem. Mater. 25, 1922-1926 (2013).

77. J. A. Koza, E. W. Bohannan, and J. A. Switzer, "Superconducting filaments formed during nonvolatile resistance switching in electrodeposited delta-Bi2O3," ACS Nano 7, 9940-9946 (2013).

78. Y.-C. Liu, J. A. Koza, and J. A. Switzer, "Comparison of the catalytic activity of Co3O4, Co(OH)2, and CoOOH for the oxygen evolution reaction," Electrochim. Acta 140, 359-365 (2014).

79. J. A. Koza, I. P. Schroen, M. M. Willmering, and J. A. Switzer, "Electrochemical synthesis and nonvolatile resistance switching of Mn3O4 thin films," Chem. Mater. 26, 4425-4432 (2014).

80. N. K. Mahenderkar, Y.-C. Liu, J. A. Koza, and J. A. Switzer, "Electrodeposited germanium nanowires," ACS Nano 8, 9524-9530 (2014).

81. S. Yazdanparast, J. A. Koza, and J. A. Switzer, "Copper nanofilament formation during unipolar resistance switching of electrodeposited cuprous oxide," Chem. Mater. 27, 5974-5981 (2015).

82. J. C. Hill, A. T. Landers, and J. A. Switzer, "An electrodeposited inhomogeneous metal-insulator-semiconductor junction of efficient photoelectrochemical water oxidation," Nature Mater. 14, 1150-1155 (2015).

83. J. C. Hill, J. A. Koza, and J. A. Switzer, "Electrodeposition of epitaxial lead iodide and conversion to textured methylammonium lead iodide pervoskites," ACS Applied Materials and Interfaces, 7, 26012-26016 (2015).

84. J. A. Koza, J. C. Hill, A. C. Demster, and J. A. Switzer, "Epitaxial electrodeposition of methylammonium lead iodide perovskites," Chem. Mater. 28, 399-405 (2016).

85. J. A. Switzer, J. C. Hill, N. K. Mahenderkar, and Y.-C. Liu, "Nanometer-thick gold on silicon as a proxy for single-crystal gold for the electrodeposition of epitaxial cuprous oxide thin films," ACS Applied Materials and Interfaces, 8, 15828-15837 (2016).

86. C. M. Hull, J. A. Koza, and J. A. Switzer, "Electrodeposition of epitaxial Co(OH)2 and conversion to epitaxial CoOOH and Co3O4," J. Mater. Res. 31, 3324-3331 (2016).

87. Z. He, J. A. Koza, Y.-C. Liu, Q. Chen, and J. A. Switzer, "Room-temperature electrochemical reduction of epitaxial Bi2O3 films to epitaxial Bi films," RSC Advances 16, 96832-96836 (2016).

88. N. K. Mahenderkar, Q. Chen, Y.-C. Liu, A. R. Duchild, S. Hofheins, E. Chason, and J. A. Switzer, "Epitaxial lift-off of electrodeposited single-crystal gold foils for flexible electronics," Science 355, 1203-1206 (2017). Download full paper Download pdf

89. Q. Chen and J. A. Switzer, “Photoelectrochemistry of Ultrathin, Semitransparent, and Catalytic Gold Films Electrodeposited Epitaxially onto n-Silicon(111),” ACS Appl. Mater. Interfaces 10, 21365-21371 (2018).

90. M. V. Kelso, J. Z. Tubbesing, and J. A. Switzer, “Epitaxial Electrodeposition of Chiral Metal Surfaces on Silicon(643),” J. Am. Chem. Soc. 140, 15812-15819 (2018).

91. C. M. Hull and J. A. Switzer, “Epitaxial Electrodeposition of Copper(100) onto Silicon(100) and Lift-off of Single-Crystal-Like Cu(100) Foils,” ACS Appl. Mater. Interfaces 10, 38596-38602 (2018).

92. Q. Chen and J. A. Switzer, “Electrodeposition of nanometer-thick epitaxial films of silver onto single-crystal silicon wafers,” J. Mater. Chem. C 7, 1720-1725 (2019).

93. M. V. Kelso, N. K. Mahenderkar, Q. Chen, J. Z. Tubbesing, and J. A. Switzer, “Spin coating epitaxial films" Science 364, 166-169 (2019). DOI: 10.1126/science.aaw6184. Reviewed as Science Concentrate in Chemical and Engineering News, vol. 97, page 10 (April 22, 2019).

94. M. V. Kelso, N. K. Mahenderkar, Q. Chen, J. Z. Tubbesing, and J. A. Switzer, “Response to Comment on ‘Spin Coating Epitaxial Films,’” Science 365 (6458) DOI: 10.1126/science.aay3966 (2019).

95. A. Banik, E. W. Bohannan, and J. A. Switzer, “Epitaxial Electrodeposition of BiI3 and Topotactic Conversion to Highly-ordered Solar Light Absorbing Perovskite (CH3NH3)3Bi2I9,” Chem. Mater., 8367–8372(2020).

96. B. Luo, A. Banik, E. W. Bohannan, and J. A. Switzer, “Epitaxial Electrodeposition of Cu(111) onto an L-cysteine Self-assembled Monolayer on Au(111) and Epitaxial Lift-off of Single-crystal-like Cu Foils for Flexible Electronics,” J. Phys. Chem. C, 124, 21426-21434 (2020).

97. A. Banik and J. A. Switzer, “Epitaxial Electrodeposition of Optically Transparent Hole Conducting CuI on n-Si(111),” Nature Materials, submitted (2020).