Solid state synthesis of CuAlO2: From a nano-boehmite - cuprous oxide powder mixture to the single phase ceramics
Апстракт
Recently, a considerable effort has been devoted to research and development of n- and p-type transparent conducting oxides (TCO), where the improvement of their properties will give an added impetus in the field of invisible electronics for production of different optoelectronic devices. Due to the lack of p-type oxide semiconductors, with high enough conductivity and transparency across the visible spectrum, special attention has been paid to synthesis of p-type delafossite CuMO2 (M = Al, Cr or Y) materials. Copper aluminate (CuAlO2) thin films prepared by physical vapour deposition from multicomponent sputtering targets exhibit the p-type behaviour and have already been used in various applications in optoelectronics. Besides, the CuAlO2 can be used as a catalyst for the conversion of solar power to hydrogen energy, thermoelectric converter or ozone sensor.
The first step in production of high quality sputtering targets is related to preparation of phase pure powders and dense cera...mics.A delafossite CuAlO2 has been usually prepared by conventional solid state synthesis from CuO or Cu2O and Al2O3 powders, where milling in different liquid media with long milling times were at first used to achieve homogeneous reagent mixtures, and then multiple calcinations at high temperatures with intermediate wet-milling steps were applied. However, secondary phases and low relative densities are yet to be improved for the solid-state synthesized delafossite CuAlO2, even when high processing temperatures (1200 – 1350 oC) and extremely long periods have been used.
The main idea of this work was to promote the reaction of the delafossite CuAlO2 formation during solid state synthesis by changing the usually used Al2O3 with more reactive Al- compounds, such as boehmite (AlOOH). Its exothermic decomposition at low temperatures is expected to improve the conventional solid state synthesis route. The well-mixed powder mixture, consisting of the 1 µm sized Cu2O particles fully covered with fine nano-boehmite rod-like particles, and decomposition of the nano-boehmite powder upon heating have contributed to acceleration of the inherently slow solid state reaction during the double calcination of the powder mixture for 10 h at 1100 oC. The secondary spinel-CuAl2O4 phase has been avoided by calcining the powder mixture in argon atmosphere, where the oxidation of cuprous ions has been precluded. A short sintering time of 2 h at 1100 oC in air atmosphere was essential to obtain single phase CuAlO2 ceramic with 86 % of theoretical density. According to EDXS, traces of Cu-rich impurities were identified only at the surface of the pellet, while the bulk of the sample remained as a single phase delafossite with uniformly distributed porosity. The semiconducting nature of the ceramic sample was confirmed by the temperature dependent dielectric parameters measurements (ε’ and tgδ) in the 10 kHz-1MHz frequency range between 297 and 473 K.
Кључне речи:
CuAlO2 / milling / SEM / EDXS / temperature dependent dielectric measurementsИзвор:
Conference of the European Ceramic Society XIII, 2013, 77-77Издавач:
- ECERS, 2013
Институција/група
Institut za multidisciplinarna istraživanjaTY - CONF AU - Vojisavljević, Katarina AU - Malic, Barbara AU - Mamoru, Senna AU - Drnovšek, Silvo AU - Kosec, Marija PY - 2013 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/2916 AB - Recently, a considerable effort has been devoted to research and development of n- and p-type transparent conducting oxides (TCO), where the improvement of their properties will give an added impetus in the field of invisible electronics for production of different optoelectronic devices. Due to the lack of p-type oxide semiconductors, with high enough conductivity and transparency across the visible spectrum, special attention has been paid to synthesis of p-type delafossite CuMO2 (M = Al, Cr or Y) materials. Copper aluminate (CuAlO2) thin films prepared by physical vapour deposition from multicomponent sputtering targets exhibit the p-type behaviour and have already been used in various applications in optoelectronics. Besides, the CuAlO2 can be used as a catalyst for the conversion of solar power to hydrogen energy, thermoelectric converter or ozone sensor. The first step in production of high quality sputtering targets is related to preparation of phase pure powders and dense ceramics.A delafossite CuAlO2 has been usually prepared by conventional solid state synthesis from CuO or Cu2O and Al2O3 powders, where milling in different liquid media with long milling times were at first used to achieve homogeneous reagent mixtures, and then multiple calcinations at high temperatures with intermediate wet-milling steps were applied. However, secondary phases and low relative densities are yet to be improved for the solid-state synthesized delafossite CuAlO2, even when high processing temperatures (1200 – 1350 oC) and extremely long periods have been used. The main idea of this work was to promote the reaction of the delafossite CuAlO2 formation during solid state synthesis by changing the usually used Al2O3 with more reactive Al- compounds, such as boehmite (AlOOH). Its exothermic decomposition at low temperatures is expected to improve the conventional solid state synthesis route. The well-mixed powder mixture, consisting of the 1 µm sized Cu2O particles fully covered with fine nano-boehmite rod-like particles, and decomposition of the nano-boehmite powder upon heating have contributed to acceleration of the inherently slow solid state reaction during the double calcination of the powder mixture for 10 h at 1100 oC. The secondary spinel-CuAl2O4 phase has been avoided by calcining the powder mixture in argon atmosphere, where the oxidation of cuprous ions has been precluded. A short sintering time of 2 h at 1100 oC in air atmosphere was essential to obtain single phase CuAlO2 ceramic with 86 % of theoretical density. According to EDXS, traces of Cu-rich impurities were identified only at the surface of the pellet, while the bulk of the sample remained as a single phase delafossite with uniformly distributed porosity. The semiconducting nature of the ceramic sample was confirmed by the temperature dependent dielectric parameters measurements (ε’ and tgδ) in the 10 kHz-1MHz frequency range between 297 and 473 K. PB - ECERS, 2013 C3 - Conference of the European Ceramic Society XIII T1 - Solid state synthesis of CuAlO2: From a nano-boehmite - cuprous oxide powder mixture to the single phase ceramics EP - 77 SP - 77 UR - https://hdl.handle.net/21.15107/rcub_rimsi_2916 ER -
@conference{ author = "Vojisavljević, Katarina and Malic, Barbara and Mamoru, Senna and Drnovšek, Silvo and Kosec, Marija", year = "2013", abstract = "Recently, a considerable effort has been devoted to research and development of n- and p-type transparent conducting oxides (TCO), where the improvement of their properties will give an added impetus in the field of invisible electronics for production of different optoelectronic devices. Due to the lack of p-type oxide semiconductors, with high enough conductivity and transparency across the visible spectrum, special attention has been paid to synthesis of p-type delafossite CuMO2 (M = Al, Cr or Y) materials. Copper aluminate (CuAlO2) thin films prepared by physical vapour deposition from multicomponent sputtering targets exhibit the p-type behaviour and have already been used in various applications in optoelectronics. Besides, the CuAlO2 can be used as a catalyst for the conversion of solar power to hydrogen energy, thermoelectric converter or ozone sensor. The first step in production of high quality sputtering targets is related to preparation of phase pure powders and dense ceramics.A delafossite CuAlO2 has been usually prepared by conventional solid state synthesis from CuO or Cu2O and Al2O3 powders, where milling in different liquid media with long milling times were at first used to achieve homogeneous reagent mixtures, and then multiple calcinations at high temperatures with intermediate wet-milling steps were applied. However, secondary phases and low relative densities are yet to be improved for the solid-state synthesized delafossite CuAlO2, even when high processing temperatures (1200 – 1350 oC) and extremely long periods have been used. The main idea of this work was to promote the reaction of the delafossite CuAlO2 formation during solid state synthesis by changing the usually used Al2O3 with more reactive Al- compounds, such as boehmite (AlOOH). Its exothermic decomposition at low temperatures is expected to improve the conventional solid state synthesis route. The well-mixed powder mixture, consisting of the 1 µm sized Cu2O particles fully covered with fine nano-boehmite rod-like particles, and decomposition of the nano-boehmite powder upon heating have contributed to acceleration of the inherently slow solid state reaction during the double calcination of the powder mixture for 10 h at 1100 oC. The secondary spinel-CuAl2O4 phase has been avoided by calcining the powder mixture in argon atmosphere, where the oxidation of cuprous ions has been precluded. A short sintering time of 2 h at 1100 oC in air atmosphere was essential to obtain single phase CuAlO2 ceramic with 86 % of theoretical density. According to EDXS, traces of Cu-rich impurities were identified only at the surface of the pellet, while the bulk of the sample remained as a single phase delafossite with uniformly distributed porosity. The semiconducting nature of the ceramic sample was confirmed by the temperature dependent dielectric parameters measurements (ε’ and tgδ) in the 10 kHz-1MHz frequency range between 297 and 473 K.", publisher = "ECERS, 2013", journal = "Conference of the European Ceramic Society XIII", title = "Solid state synthesis of CuAlO2: From a nano-boehmite - cuprous oxide powder mixture to the single phase ceramics", pages = "77-77", url = "https://hdl.handle.net/21.15107/rcub_rimsi_2916" }
Vojisavljević, K., Malic, B., Mamoru, S., Drnovšek, S.,& Kosec, M.. (2013). Solid state synthesis of CuAlO2: From a nano-boehmite - cuprous oxide powder mixture to the single phase ceramics. in Conference of the European Ceramic Society XIII ECERS, 2013., 77-77. https://hdl.handle.net/21.15107/rcub_rimsi_2916
Vojisavljević K, Malic B, Mamoru S, Drnovšek S, Kosec M. Solid state synthesis of CuAlO2: From a nano-boehmite - cuprous oxide powder mixture to the single phase ceramics. in Conference of the European Ceramic Society XIII. 2013;:77-77. https://hdl.handle.net/21.15107/rcub_rimsi_2916 .
Vojisavljević, Katarina, Malic, Barbara, Mamoru, Senna, Drnovšek, Silvo, Kosec, Marija, "Solid state synthesis of CuAlO2: From a nano-boehmite - cuprous oxide powder mixture to the single phase ceramics" in Conference of the European Ceramic Society XIII (2013):77-77, https://hdl.handle.net/21.15107/rcub_rimsi_2916 .