50 A.R. Boccaccini, 1. Zhitomirsky/ Current Opinion in Solid State and Materials Science 6(2002)251-260 Lett 2001: 38-9. Formation of ordered macroporous Zno films by electrodeposition. Bull Am Ceram Soc 2001: 80: 41-6, Variou electrodeposition. Photonic properties could be combined with hybrid materials based on polymers and metal oxides or hydroxides uminescent and piezoelectric properties of the films ere prepared using cathodic electrodeposition *74 Hajjaji SE, Manov S, Roy J, Aigouy T, Ben Bachir A [83 Barton JK, Vertegel AA, Bohannan Ew, Switzer JA. Epitaxia Investigations on composition and morphology of electroc ition of copper(I) oxide on single-crystal copper. Chem and alumina-yttria stabilised zirconia deposits Mater 2001: 13: 952-9, An important paper describing peculiarities ci 2001: 180: 293-301, An important stud of the epitaxial growth of copper oxide films on the basis of in situ portance of the conversion coatings and ad X-ray diffraction studies f advanced protective coatings on stainless el for h high tempera- [84] Hill LI, Portal R, Verbaere A, Guyomard D. One-step sfor chemical synthesis of a-MnO, and ay-MnO [75] Hajjaji SE, Ben Bachir A, Aries L. Electrol posits on stainless thrum batteries. Electrochem Solid State Lett 2001: 4: Al80-3. First steel as high temperature coatings. Surf Eng 2001; 17: 201-4 report of the electrochemical synthesis of a-MnO, without stabiliz- [76] Zhitomirsky I, Petric A. Electrolytic deposition of ZrO -Y,O3 films. Mater Lett 2001: 50- 189-93 185 Pang SC, Anderson MA. Novel electrode materials for [77 Zhitomirsky I, Petric A. Electrochemical deposition of ceria and itors:part Il. Material characterization of ceria films. Ceram Int 2001: 27: 149-55 derived and electrodeposited manganese dioxide thin films [78 Dinamani M, Kamath PV. Electrochemical Res2000;15:2096-106. hosphates by cathodic reduction. Mater Res Bull 2001: 36: 2043-50. [86 Chigane M, Ishikawa M, Izaki M. Preparation of ma [79] Manso M, Jimenez C, Morant C, Herrero P, Martinez-Duart JM. hin films by electrolysis/chemical deposition and electroc lectrodeposition of hydroxyapatite coatings in basic conditions J Electrochem Soc 2001: 148 D96-DI01, Novel method of prepara- Biomaterials 2000: 21: 1755-61 tion of MnO films with important electrochromic properties [80]Yen SK, Guo MJ, Zan HZ. Characterization of electrolytic ZrO, 187] Cattarin S, Guerriero P, Musiani M. Preparation of anodes for coating on Co-Cr-Mo implant alloys of hip prosthesis. Biomateri- oxygen evolution by electrodeposition of composite Pb and Co als2001:22:125-33 oxides. Electroc ca2001;46:4229-34 [] Zhitomirsky I, Petric A. Electrolytic ia and [88 Choi HC, Buriak JM. Positive and negative photopatterning of zirconia organoceramic composites. M oxides on silicon via bipolar electrochemical deposition, c portant advances in preparation of hybrid films and un Commun 2001; 1614-5. Important results on photopatterning of netal oxides on silicon using electrodeposition. This development [*82 Zhitomirsky I, Petric A. Fabrication of organoceramic films by will allow to address a wide range of applications260 A.R. Boccaccini, I. Zhitomirsky / Current Opinion in Solid State and Materials Science 6 (2002) 251–260 Lett 2001;38–9. Formation of ordered macroporous ZnO films by electrodeposition. Bull Am Ceram Soc 2001;80:41–6, Various electrodeposition. Photonic properties could be combined with hybrid materials based on polymers and metal oxides or hydroxides luminescent and piezoelectric properties of the films. were prepared using cathodic electrodeposition. [*74] Hajjaji SE, Manov S, Roy J, Aigouy T, Ben Bachir A, Aries L. [*83] Barton JK, Vertegel AA, Bohannan EW, Switzer JA. Epitaxial Investigations on composition and morphology of electrochemical electrodeposition of copper(I) oxide on single-crystal copper. Chem alumina and alumina–yttria stabilised zirconia deposits. Appl Surf Mater 2001;13:952–9, An important paper describing peculiarities Sci 2001;180:293–301, An important study, which showed the of the epitaxial growth of copper oxide films on the basis of in situ importance of the conversion coatings and additives for preparation X-ray diffraction studies. of advanced protective coatings on stainless steel for high tempera- [*84] Hill LI, Portal R, Verbaere A, Guyomard D. One-step electro￾ture applications. chemical synthesis of a-MnO and ag-MnO compounds for 2 2 [75] Hajjaji SE, Ben Bachir A, Aries L. Electrolytic deposits on stainless lithium batteries. Electrochem Solid State Lett 2001;4:A180–3, First steel as high temperature coatings. Surf Eng 2001;17:201–4. report of the electrochemical synthesis of a-MnO without stabiliz- 2 [76] Zhitomirsky I, Petric A. Electrolytic deposition of ZrO –Y O ing cations. 2 23 films. Mater Lett 2001;50:189–93. [85] Pang SC, Anderson MA. Novel electrode materials for electro- [77] Zhitomirsky I, Petric A. Electrochemical deposition of ceria and chemical capacitors: part II. Material characterization of sol–gel￾doped ceria films. Ceram Int 2001;27:149–55. derived and electrodeposited manganese dioxide thin films. J Mater [78] Dinamani M, Kamath PV. Electrochemical synthesis of metal Res 2000;15:2096–106. phosphates by cathodic reduction. Mater Res Bull 2001;36:2043–50. [*86] Chigane M, Ishikawa M, Izaki M. Preparation of manganese oxide [79] Manso M, Jimenez C, Morant C, Herrero P, Martınez-Duart JM. thin films by electrolysis/chemical deposition and electrochromism. ´ ´ Electrodeposition of hydroxyapatite coatings in basic conditions. J Electrochem Soc 2001;148:D96–D101, Novel method of prepara￾Biomaterials 2000;21:1755–61. tion of MnO films with important electrochromic properties. x [80] Yen SK, Guo MJ, Zan HZ. Characterization of electrolytic ZrO [87] Cattarin S, Guerriero P, Musiani M. Preparation of anodes for 2 coating on Co–Cr–Mo implant alloys of hip prosthesis. Biomateri- oxygen evolution by electrodeposition of composite Pb and Co als 2001;22:125–33. oxides. Electrochim Acta 2001;46:4229–34. [*81] Zhitomirsky I, Petric A. Electrolytic deposition of zirconia and [**88] Choi HC, Buriak JM. Positive and negative photopatterning of metal zirconia organoceramic composites. Mater Lett 2000;46:1–6, Im- oxides on silicon via bipolar electrochemical deposition, Chem portant advances in preparation of hybrid films and understanding of Commun 2001;1614–5. Important results on photopatterning of the deposition mechanism. metal oxides on silicon using electrodeposition. This development [**82] Zhitomirsky I, Petric A. Fabrication of organoceramic films by will allow to address a wide range of applications