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53. Start Early: Promoting Mindfulness in Primary Schools to Delay the Onset of Stress [The last paper of this journal explains how promoting ‘mindfulness’ in primary school education could provide a means of enhancing student wellbeing at school. It was written by a 4th year pre-service primary school teacher]

Author

Dincsoy, Cagla and Dincsoy, Cagla

Abstract

Primary schools are the foundational stages in the education system – an extensive seven-year period that offers both growth and development to students. During this time, an individual’s wellbeing, that is, the way an individual feels, interacts, moves, mentally functions and personally devotes themselves, is in constant evolution (DEC NSW, 2015). Healthy wellbeing is dependent on constant interaction with positive change, however, environmental factors may potentially pose negative distress, causing personal wellbeing to enter a state of imbalance (DEC NSW, 2015). This paper explains how promoting ‘mindfulness’ in primary school education, could provide a means of reducing the prevalence of psychosocial stress and enhancing overall performance at school. The practicality of this article is supported with age-related developmental and ethical considerations associated with implementing mindfulness interventions, along with a discussion of research findings.

Published
2017

54. Energy and protein intake increases with an electronic bedside spoken meal ordering system compared to a paper menu in hospital patients

Author

Maunder, Kirsty, Lazarus, Carmel, Walton, Karen L, Williams, Peter G, Ferguson, Maree, Beck, Eleanor, Maunder, Kirsty, Lazarus, Carmel, Walton, Karen L, Williams, Peter G, Ferguson, Maree, and Beck, Eleanor

Abstract

Background and aims Electronic bedside spoken meal ordering systems (BMOS) have the potential to improve patient dietary intakes, but there are few published evaluation studies. The aim of this study was to determine changes in the dietary intake and satisfaction of hospital patients, as well as the role of the Nutrition Assistant (NA), associated with the implementation of an electronic BMOS compared to a paper menu. Methods This study evaluated the effect of a BMOS compared to a paper menu at a 210-bed tertiary private hospital in Sydney during 2011-2012. Patient dietary intake, patient satisfaction and changes in NA role were the key outcomes measured. Dietary intake was estimated from observational recordings and photographs of meal trays (before and after patient intake) over two 48 h periods. Patient satisfaction was measured through written surveys, and the NA role was compared through a review of work schedules, observation, time recordings of patient contact, written surveys and structured interviews. Results Baseline data were collected across five wards from 54 patients (75% response rate) whilst using the paper menu service, and after BMOS was introduced across the same five wards, from 65 patients (95% response rate). Paper menu and BMOS cohorts' demographics, self-reported health, appetite, weight, body mass index, dietary requirements, and overall foodservice satisfaction remained consistent. However, 80% of patients preferred the BMOS, and importantly mean daily energy and protein intakes increased significantly (paper menu versus BMOS): 6273 kJ versus 8273 kJ and 66 g versus 83 g protein; both p < 0.05. No additional time was required for the NA role, however direct patient interaction increased significantly (p < 0.05), and patient awareness of the NA and their role increased with the BMOS. Conclusions The utilisation of a BMOS improved patient energy and protein intake. These results are most likely due to an enhancement of existing NA work proces

Published
2015

55. The rites of writing papers: steps to successful publishing for psychiatrists

Author

Brakoulias, Vlasios, Macfarlane, Matthew D, Looi, Jeffrey C. L, Brakoulias, Vlasios, Macfarlane, Matthew D, and Looi, Jeffrey C. L

Abstract

Objective: To encourage psychiatrists to publish high-quality articles in peer-reviewed journals by demystifying the publishing process. Methods: This paper will describe the publishing process and outline key factors that ensure that publishing is an achievable goal for psychiatrists. Results: The publishing process can be long and often this is related to delays associated with obtaining reviewers and their comments. Negative reviewer comments often relate to grammatical and typographical errors, an insufficient literature review, failure to adequately discuss limitations and conclusions that are not adequately supported by the results. Authors who systematically respond to their paper's reviewer comments are usually successful in having their papers accepted. Success in publishing is usually determined by a topic that appeals to the readership of a journal, a credible methodology and a paper that is well-written. Conclusions: Publishing is achievable for all psychiatrists providing they can write a paper that delivers a clear and concise message, are willing to address reviewer comments and that their paper is tailored to the readership of the journal.

Published
2015

56. Energy and protein intake increases with an electronic bedside spoken meal ordering system compared to a paper menu in hospital patients

Author

Maunder, Kirsty, Lazarus, Carmel, Walton, Karen L, Williams, Peter G, Ferguson, Maree, Beck, Eleanor, Maunder, Kirsty, Lazarus, Carmel, Walton, Karen L, Williams, Peter G, Ferguson, Maree, and Beck, Eleanor

Abstract

Background and aims Electronic bedside spoken meal ordering systems (BMOS) have the potential to improve patient dietary intakes, but there are few published evaluation studies. The aim of this study was to determine changes in the dietary intake and satisfaction of hospital patients, as well as the role of the Nutrition Assistant (NA), associated with the implementation of an electronic BMOS compared to a paper menu. Methods This study evaluated the effect of a BMOS compared to a paper menu at a 210-bed tertiary private hospital in Sydney during 2011-2012. Patient dietary intake, patient satisfaction and changes in NA role were the key outcomes measured. Dietary intake was estimated from observational recordings and photographs of meal trays (before and after patient intake) over two 48 h periods. Patient satisfaction was measured through written surveys, and the NA role was compared through a review of work schedules, observation, time recordings of patient contact, written surveys and structured interviews. Results Baseline data were collected across five wards from 54 patients (75% response rate) whilst using the paper menu service, and after BMOS was introduced across the same five wards, from 65 patients (95% response rate). Paper menu and BMOS cohorts' demographics, self-reported health, appetite, weight, body mass index, dietary requirements, and overall foodservice satisfaction remained consistent. However, 80% of patients preferred the BMOS, and importantly mean daily energy and protein intakes increased significantly (paper menu versus BMOS): 6273 kJ versus 8273 kJ and 66 g versus 83 g protein; both p < 0.05. No additional time was required for the NA role, however direct patient interaction increased significantly (p < 0.05), and patient awareness of the NA and their role increased with the BMOS. Conclusions The utilisation of a BMOS improved patient energy and protein intake. These results are most likely due to an enhancement of existing NA work proces

Published
2015

57. The rites of writing papers: steps to successful publishing for psychiatrists

Author

Brakoulias, Vlasios, Macfarlane, Matthew D, Looi, Jeffrey C. L, Brakoulias, Vlasios, Macfarlane, Matthew D, and Looi, Jeffrey C. L

Abstract

Objective: To encourage psychiatrists to publish high-quality articles in peer-reviewed journals by demystifying the publishing process. Methods: This paper will describe the publishing process and outline key factors that ensure that publishing is an achievable goal for psychiatrists. Results: The publishing process can be long and often this is related to delays associated with obtaining reviewers and their comments. Negative reviewer comments often relate to grammatical and typographical errors, an insufficient literature review, failure to adequately discuss limitations and conclusions that are not adequately supported by the results. Authors who systematically respond to their paper's reviewer comments are usually successful in having their papers accepted. Success in publishing is usually determined by a topic that appeals to the readership of a journal, a credible methodology and a paper that is well-written. Conclusions: Publishing is achievable for all psychiatrists providing they can write a paper that delivers a clear and concise message, are willing to address reviewer comments and that their paper is tailored to the readership of the journal.

Published
2015

58. Centrifugal automation of a triglyceride bioassay on a low-cost hybrid paper-polymer device

Author

Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, Ducree, Jens, Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, and Ducree, Jens

Abstract

We present a novel paper-polymer hybrid construct for the simple automation of fundamental microfluidic operations in a lab-on-a-disc platform. The novel design, we term a paper siphon, consists of chromatographic paper strips embedded along a siphon microchannel. The paper siphon relies on two main interplaying forces to create unique valving and liquid-sampling methods in centrifugal microfluidics. At sufficiently low speeds, the inherent wicking of the paper overcomes the rotationally induced centrifugal force to drive liquids towards inwards positions of the disc. At elevated speeds, the dominant centrifugal force will extract liquid from the siphon paper strip towards the edge of the disc. Distinct modes of flow control have been developed to account for water (reagent) and more viscous plasma samples. The system functionality is demonstrated by the automation of sequential sample preparation steps in a colorimetric triglyceride assay: plasma is metered from a whole blood sample and incubated with a specific enzymatic mixture, followed by detection of triglyceride levels through (off-disc) absorbance measurements. The successful quantification of triglycerides and the simple fabrication offer attractive directions for such hybrid devices in low-cost bioanalysis.

Published
2014

59. Centrifugal automation of a triglyceride bioassay on a low-cost hybrid paper-polymer device

Author

Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, Ducree, Jens, Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, and Ducree, Jens

Abstract

We present a novel paper-polymer hybrid construct for the simple automation of fundamental microfluidic operations in a lab-on-a-disc platform. The novel design, we term a paper siphon, consists of chromatographic paper strips embedded along a siphon microchannel. The paper siphon relies on two main interplaying forces to create unique valving and liquid-sampling methods in centrifugal microfluidics. At sufficiently low speeds, the inherent wicking of the paper overcomes the rotationally induced centrifugal force to drive liquids towards inwards positions of the disc. At elevated speeds, the dominant centrifugal force will extract liquid from the siphon paper strip towards the edge of the disc. Distinct modes of flow control have been developed to account for water (reagent) and more viscous plasma samples. The system functionality is demonstrated by the automation of sequential sample preparation steps in a colorimetric triglyceride assay: plasma is metered from a whole blood sample and incubated with a specific enzymatic mixture, followed by detection of triglyceride levels through (off-disc) absorbance measurements. The successful quantification of triglycerides and the simple fabrication offer attractive directions for such hybrid devices in low-cost bioanalysis.

Published
2014

60. Graphene cryogel papers with enhanced mechanical strength for high performance lithium battery anodes

Author

Shu, Kewei, Wang, Caiyun, Wang, Meng, Zhao, Chen, Wallace, Gordon G, Shu, Kewei, Wang, Caiyun, Wang, Meng, Zhao, Chen, and Wallace, Gordon G

Abstract

A porous graphene paper was prepared by pressing a graphene cryogel, followed by thermal reduction at 220 °C. The cryogel was formed by freeze-drying a solution containing chemically reduced graphene and graphene oxide (CRG/GO). The formed graphene cryogel papers deliver a much higher discharge capacity and rate capability than that from conventional graphene papers fabricated by filtration. These new structures have a discharge capacity higher than 400 mA h g−1 at a current density of 2000 mA g−1 in sharp contrast to 229 mA h g−1 at 50 mA g−1 obtained from conventional graphene papers. These greatly improved electrochemical properties may be attributed to the porous structure and the concomitant high surface area. The mechanical properties may be tuned with the CRG/GO ratio. At a CRG/GO mass ratio of 2:1 the graphene paper has a Young's modulus nearly 9 times greater than an equivalent paper made from pure GO.

Published
2014

61. A germanium/single-walled carbon nanotube composite paper as a free-standing anode for lithium-ion batteries

Author

Wang, Jun, Wang, Jiazhao, Sun, Ziqi, Gao, Xuanwen, Zhong, Chao, Chou, Shulei, Liu, Hua-Kun, Wang, Jun, Wang, Jiazhao, Sun, Ziqi, Gao, Xuanwen, Zhong, Chao, Chou, Shulei, and Liu, Hua-Kun

Abstract

Paper-like free-standing germanium (Ge) and single-walled carbon nanotube (SWCNT) composite anodes were synthesized by the vacuum filtration of Ge/SWCNT composites, which were prepared by a facile aqueous-based method. The samples were characterized by X-ray diffraction, field emission scanning electron microscopy, and transmission electron microscopy. Electrochemical measurements demonstrate that the Ge/SWCNT composite paper anode with the weight percentage of 32% Ge delivered a specific discharge capacity of 417 mA h g−1 after 40 cycles at a current density of 25 mA g−1, 117% higher than the pure SWCNT paper anode. The SWCNTs not only function as a flexible mechanical support for strain release, but also provide excellent electrically conducting channels, while the nanosized Ge particles contribute to improving the discharge capacity of the paper anode.

Published
2014

62. Graphene cryogel papers with enhanced mechanical strength for high performance lithium battery anodes

Author

Shu, Kewei, Wang, Caiyun, Wang, Meng, Zhao, Chen, Wallace, Gordon G, Shu, Kewei, Wang, Caiyun, Wang, Meng, Zhao, Chen, and Wallace, Gordon G

Abstract

A porous graphene paper was prepared by pressing a graphene cryogel, followed by thermal reduction at 220 °C. The cryogel was formed by freeze-drying a solution containing chemically reduced graphene and graphene oxide (CRG/GO). The formed graphene cryogel papers deliver a much higher discharge capacity and rate capability than that from conventional graphene papers fabricated by filtration. These new structures have a discharge capacity higher than 400 mA h g−1 at a current density of 2000 mA g−1 in sharp contrast to 229 mA h g−1 at 50 mA g−1 obtained from conventional graphene papers. These greatly improved electrochemical properties may be attributed to the porous structure and the concomitant high surface area. The mechanical properties may be tuned with the CRG/GO ratio. At a CRG/GO mass ratio of 2:1 the graphene paper has a Young's modulus nearly 9 times greater than an equivalent paper made from pure GO.

Published
2014

63. A germanium/single-walled carbon nanotube composite paper as a free-standing anode for lithium-ion batteries

Author

Wang, Jun, Wang, Jiazhao, Sun, Ziqi, Gao, Xuanwen, Zhong, Chao, Chou, Shulei, Liu, Hua-Kun, Wang, Jun, Wang, Jiazhao, Sun, Ziqi, Gao, Xuanwen, Zhong, Chao, Chou, Shulei, and Liu, Hua-Kun

Abstract

Paper-like free-standing germanium (Ge) and single-walled carbon nanotube (SWCNT) composite anodes were synthesized by the vacuum filtration of Ge/SWCNT composites, which were prepared by a facile aqueous-based method. The samples were characterized by X-ray diffraction, field emission scanning electron microscopy, and transmission electron microscopy. Electrochemical measurements demonstrate that the Ge/SWCNT composite paper anode with the weight percentage of 32% Ge delivered a specific discharge capacity of 417 mA h g−1 after 40 cycles at a current density of 25 mA g−1, 117% higher than the pure SWCNT paper anode. The SWCNTs not only function as a flexible mechanical support for strain release, but also provide excellent electrically conducting channels, while the nanosized Ge particles contribute to improving the discharge capacity of the paper anode.

Published
2014

64. Centrifugal automation of a triglyceride bioassay on a low-cost hybrid paper-polymer device

Author

Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, Ducree, Jens, Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, and Ducree, Jens

Abstract

We present a novel paper-polymer hybrid construct for the simple automation of fundamental microfluidic operations in a lab-on-a-disc platform. The novel design, we term a paper siphon, consists of chromatographic paper strips embedded along a siphon microchannel. The paper siphon relies on two main interplaying forces to create unique valving and liquid-sampling methods in centrifugal microfluidics. At sufficiently low speeds, the inherent wicking of the paper overcomes the rotationally induced centrifugal force to drive liquids towards inwards positions of the disc. At elevated speeds, the dominant centrifugal force will extract liquid from the siphon paper strip towards the edge of the disc. Distinct modes of flow control have been developed to account for water (reagent) and more viscous plasma samples. The system functionality is demonstrated by the automation of sequential sample preparation steps in a colorimetric triglyceride assay: plasma is metered from a whole blood sample and incubated with a specific enzymatic mixture, followed by detection of triglyceride levels through (off-disc) absorbance measurements. The successful quantification of triglycerides and the simple fabrication offer attractive directions for such hybrid devices in low-cost bioanalysis.

Published
2014

65. Graphene cryogel papers with enhanced mechanical strength for high performance lithium battery anodes

Author

Shu, Kewei, Wang, Caiyun, Wang, Meng, Zhao, Chen, Wallace, Gordon G, Shu, Kewei, Wang, Caiyun, Wang, Meng, Zhao, Chen, and Wallace, Gordon G

Abstract

A porous graphene paper was prepared by pressing a graphene cryogel, followed by thermal reduction at 220 °C. The cryogel was formed by freeze-drying a solution containing chemically reduced graphene and graphene oxide (CRG/GO). The formed graphene cryogel papers deliver a much higher discharge capacity and rate capability than that from conventional graphene papers fabricated by filtration. These new structures have a discharge capacity higher than 400 mA h g−1 at a current density of 2000 mA g−1 in sharp contrast to 229 mA h g−1 at 50 mA g−1 obtained from conventional graphene papers. These greatly improved electrochemical properties may be attributed to the porous structure and the concomitant high surface area. The mechanical properties may be tuned with the CRG/GO ratio. At a CRG/GO mass ratio of 2:1 the graphene paper has a Young's modulus nearly 9 times greater than an equivalent paper made from pure GO.

Published
2014

66. A germanium/single-walled carbon nanotube composite paper as a free-standing anode for lithium-ion batteries

Author

Wang, Jun, Wang, Jiazhao, Sun, Ziqi, Gao, Xuanwen, Zhong, Chao, Chou, Shulei, Liu, Hua-Kun, Wang, Jun, Wang, Jiazhao, Sun, Ziqi, Gao, Xuanwen, Zhong, Chao, Chou, Shulei, and Liu, Hua-Kun

Abstract

Paper-like free-standing germanium (Ge) and single-walled carbon nanotube (SWCNT) composite anodes were synthesized by the vacuum filtration of Ge/SWCNT composites, which were prepared by a facile aqueous-based method. The samples were characterized by X-ray diffraction, field emission scanning electron microscopy, and transmission electron microscopy. Electrochemical measurements demonstrate that the Ge/SWCNT composite paper anode with the weight percentage of 32% Ge delivered a specific discharge capacity of 417 mA h g−1 after 40 cycles at a current density of 25 mA g−1, 117% higher than the pure SWCNT paper anode. The SWCNTs not only function as a flexible mechanical support for strain release, but also provide excellent electrically conducting channels, while the nanosized Ge particles contribute to improving the discharge capacity of the paper anode.

Published
2014

67. Centrifugal automation of a triglyceride bioassay on a low-cost hybrid paper-polymer device

Author

Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, Ducree, Jens, Godino, Neus, Vereshchagina, Elizaveta, Gorkin III, Robert, and Ducree, Jens

Abstract

We present a novel paper-polymer hybrid construct for the simple automation of fundamental microfluidic operations in a lab-on-a-disc platform. The novel design, we term a paper siphon, consists of chromatographic paper strips embedded along a siphon microchannel. The paper siphon relies on two main interplaying forces to create unique valving and liquid-sampling methods in centrifugal microfluidics. At sufficiently low speeds, the inherent wicking of the paper overcomes the rotationally induced centrifugal force to drive liquids towards inwards positions of the disc. At elevated speeds, the dominant centrifugal force will extract liquid from the siphon paper strip towards the edge of the disc. Distinct modes of flow control have been developed to account for water (reagent) and more viscous plasma samples. The system functionality is demonstrated by the automation of sequential sample preparation steps in a colorimetric triglyceride assay: plasma is metered from a whole blood sample and incubated with a specific enzymatic mixture, followed by detection of triglyceride levels through (off-disc) absorbance measurements. The successful quantification of triglycerides and the simple fabrication offer attractive directions for such hybrid devices in low-cost bioanalysis.

Published
2014

68. Designing simulation learning experiences to reduce technological burden on nursing academics: A discussion paper

Author

Ryan, Colleen, Roy, Sherre, O'Neill, Barbara, Simes, Tracey, Lapkin, Samuel, Curtis, Elizabeth, Ryan, Colleen, Roy, Sherre, O'Neill, Barbara, Simes, Tracey, Lapkin, Samuel, and Curtis, Elizabeth

Abstract

Objective: The literature reports nursing academics avoid manikin-based simulation because they feel intimidated by the technology. With that in mind we sought to design a manikin-based simulation learning experience for nursing students, with low technological burden for those nursing academics expected to work with the technology. Setting: A multi-campus Australian regional university school of nursing. Subjects Nursing academics with little or no experience in manikin-based simulation. Primary argument: Nursing academics are encouraged to use manikins in their clinical teaching but little has been done to address their fears and concerns around the technology. We argue that taking simple steps to decrease the technological burden will help to encourage nursing academics uptake of manikin-based simulations, as a favoured pedagogy in clinical teaching. Conclusion: The technological burden around manikin-based simulation was reduced by: (1) choosing medium level fidelity simulations, (2) designing simulations where students operate the equipment, (3) preparing participants for the SLE with a pre-brief video and instruction handouts, (4) offering academics roles as observers, and (5) providing on-site technological support. Nursing academics were encouraged by the process and more inclined to engage with manikin simulations. Designing simulations that address nursing academics' fears and concerns around simulation technology encourages simulation uptake.

Published
2017

69. Designing simulation learning experiences to reduce technological burden on nursing academics: A discussion paper

Author

Ryan, Colleen, Roy, Sherre, O'Neill, Barbara, Simes, Tracey, Lapkin, Samuel, Curtis, Elizabeth, Ryan, Colleen, Roy, Sherre, O'Neill, Barbara, Simes, Tracey, Lapkin, Samuel, and Curtis, Elizabeth

Abstract

Objective: The literature reports nursing academics avoid manikin-based simulation because they feel intimidated by the technology. With that in mind we sought to design a manikin-based simulation learning experience for nursing students, with low technological burden for those nursing academics expected to work with the technology. Setting: A multi-campus Australian regional university school of nursing. Subjects Nursing academics with little or no experience in manikin-based simulation. Primary argument: Nursing academics are encouraged to use manikins in their clinical teaching but little has been done to address their fears and concerns around the technology. We argue that taking simple steps to decrease the technological burden will help to encourage nursing academics uptake of manikin-based simulations, as a favoured pedagogy in clinical teaching. Conclusion: The technological burden around manikin-based simulation was reduced by: (1) choosing medium level fidelity simulations, (2) designing simulations where students operate the equipment, (3) preparing participants for the SLE with a pre-brief video and instruction handouts, (4) offering academics roles as observers, and (5) providing on-site technological support. Nursing academics were encouraged by the process and more inclined to engage with manikin simulations. Designing simulations that address nursing academics' fears and concerns around simulation technology encourages simulation uptake.

Published
2017

70. Self-assembled N/S codoped flexible graphene paper for high performance energy storage and oxygen reduction reaction

Author

Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, Dou, S X, Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, and Dou, S X

Abstract

A novel flexible three-dimensional (3D) architecture of nitrogen and sulfur codoped graphene has been successfully synthesized via thermal treatment of a liquid crystalline graphene oxide−doping agent composition, followed by a soft self-assembly approach. The high temperature process turns the layer-by-layer assembly into a high surface area macro- and nanoporous free-standing material with different atomic configurations of graphene. The interconnected 3D network exhibits excellent charge capacitive performance of 305 F g−1 (at 100 mV s−1), an unprecedented volumetric capacitance of 188 F cm−3 (at 1 A g−1), and outstanding energy density of 28.44 Wh kg−1 as well as cycle life of 10 000 cycles as a free-standing electrode for an aqueous electrolyte, symmetric supercapacitor device. Moreover, the resulting nitrogen/sulfur doped graphene architecture shows good electrocatalytic performance, long durability, and high selectivity when they are used as metal-free catalyst for the oxygen reduction reaction. This study demonstrates an efficient approach for the development of multifunctional as well as flexible 3D architectures for a series of heteroatom-doped graphene frameworks for modern energy storage as well as energy source applications.

Published
2016

71. Self-assembled N/S codoped flexible graphene paper for high performance energy storage and oxygen reduction reaction

Author

Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, Dou, S X, Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, and Dou, S X

Abstract

A novel flexible three-dimensional (3D) architecture of nitrogen and sulfur codoped graphene has been successfully synthesized via thermal treatment of a liquid crystalline graphene oxide−doping agent composition, followed by a soft self-assembly approach. The high temperature process turns the layer-by-layer assembly into a high surface area macro- and nanoporous free-standing material with different atomic configurations of graphene. The interconnected 3D network exhibits excellent charge capacitive performance of 305 F g−1 (at 100 mV s−1), an unprecedented volumetric capacitance of 188 F cm−3 (at 1 A g−1), and outstanding energy density of 28.44 Wh kg−1 as well as cycle life of 10 000 cycles as a free-standing electrode for an aqueous electrolyte, symmetric supercapacitor device. Moreover, the resulting nitrogen/sulfur doped graphene architecture shows good electrocatalytic performance, long durability, and high selectivity when they are used as metal-free catalyst for the oxygen reduction reaction. This study demonstrates an efficient approach for the development of multifunctional as well as flexible 3D architectures for a series of heteroatom-doped graphene frameworks for modern energy storage as well as energy source applications.

Published
2016

73. Self-assembled N/S codoped flexible graphene paper for high performance energy storage and oxygen reduction reaction

Author

Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, Dou, S X, Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, and Dou, S X

Abstract

A novel flexible three-dimensional (3D) architecture of nitrogen and sulfur codoped graphene has been successfully synthesized via thermal treatment of a liquid crystalline graphene oxide−doping agent composition, followed by a soft self-assembly approach. The high temperature process turns the layer-by-layer assembly into a high surface area macro- and nanoporous free-standing material with different atomic configurations of graphene. The interconnected 3D network exhibits excellent charge capacitive performance of 305 F g−1 (at 100 mV s−1), an unprecedented volumetric capacitance of 188 F cm−3 (at 1 A g−1), and outstanding energy density of 28.44 Wh kg−1 as well as cycle life of 10 000 cycles as a free-standing electrode for an aqueous electrolyte, symmetric supercapacitor device. Moreover, the resulting nitrogen/sulfur doped graphene architecture shows good electrocatalytic performance, long durability, and high selectivity when they are used as metal-free catalyst for the oxygen reduction reaction. This study demonstrates an efficient approach for the development of multifunctional as well as flexible 3D architectures for a series of heteroatom-doped graphene frameworks for modern energy storage as well as energy source applications.

Published
2016

74. Self-assembled N/S codoped flexible graphene paper for high performance energy storage and oxygen reduction reaction

Author

Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, Dou, S X, Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, and Dou, S X

Abstract

A novel flexible three-dimensional (3D) architecture of nitrogen and sulfur codoped graphene has been successfully synthesized via thermal treatment of a liquid crystalline graphene oxide−doping agent composition, followed by a soft self-assembly approach. The high temperature process turns the layer-by-layer assembly into a high surface area macro- and nanoporous free-standing material with different atomic configurations of graphene. The interconnected 3D network exhibits excellent charge capacitive performance of 305 F g−1 (at 100 mV s−1), an unprecedented volumetric capacitance of 188 F cm−3 (at 1 A g−1), and outstanding energy density of 28.44 Wh kg−1 as well as cycle life of 10 000 cycles as a free-standing electrode for an aqueous electrolyte, symmetric supercapacitor device. Moreover, the resulting nitrogen/sulfur doped graphene architecture shows good electrocatalytic performance, long durability, and high selectivity when they are used as metal-free catalyst for the oxygen reduction reaction. This study demonstrates an efficient approach for the development of multifunctional as well as flexible 3D architectures for a series of heteroatom-doped graphene frameworks for modern energy storage as well as energy source applications.

Published
2016

75. Supporting and engaging students who are the first in their families to attend university: A practise paper

Author

O'Shea, Sarah Elizabeth and O'Shea, Sarah Elizabeth

Abstract

Globally, first-in-family learners represent a significant proportion of the university student population, yet these high rates of participation are not necessarily matched by equally high success rates. Instead, internationally the research on this group indicates that these learners are at greater risk of departure from university when compared to their second and third generation peers, often as a result of limited exposure to academic culture and expectations. This article provides an overview of current research on first-in-family learners and also, offers some recommendations for supporting and engaging with this cohort within university settings.

Published
2016

76. Self-assembled N/S codoped flexible graphene paper for high performance energy storage and oxygen reduction reaction

Author

Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, Dou, S X, Akhter, Taslima, Islam, Md. Monirul, Faisal, Shaikh Nayeem, Haque, Enamul, Minett, Andrew I, Liu, Hua-Kun, Konstantinov, Konstantin K, and Dou, S X

Abstract

A novel flexible three-dimensional (3D) architecture of nitrogen and sulfur codoped graphene has been successfully synthesized via thermal treatment of a liquid crystalline graphene oxide−doping agent composition, followed by a soft self-assembly approach. The high temperature process turns the layer-by-layer assembly into a high surface area macro- and nanoporous free-standing material with different atomic configurations of graphene. The interconnected 3D network exhibits excellent charge capacitive performance of 305 F g−1 (at 100 mV s−1), an unprecedented volumetric capacitance of 188 F cm−3 (at 1 A g−1), and outstanding energy density of 28.44 Wh kg−1 as well as cycle life of 10 000 cycles as a free-standing electrode for an aqueous electrolyte, symmetric supercapacitor device. Moreover, the resulting nitrogen/sulfur doped graphene architecture shows good electrocatalytic performance, long durability, and high selectivity when they are used as metal-free catalyst for the oxygen reduction reaction. This study demonstrates an efficient approach for the development of multifunctional as well as flexible 3D architectures for a series of heteroatom-doped graphene frameworks for modern energy storage as well as energy source applications.

Published
2016

77. Hydroxypropyl cellulose methacrylate as a photo-patternable and biodegradable hybrid paper substrate for cell culture and other bioapplications

Author

Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, Chan, Peggy P. Y., Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, and Chan, Peggy P. Y.

Abstract

In addition to the choice of appropriate material properties of the tissue construct to be used, such as its biocompatibility, biodegradability, cytocompatibility, and mechanical rigidity, the ability to incorporate microarchitectural patterns in the construct to mimic that found in the cellular microenvironment is an important consideration in tissue engineering and regenerative medicine. Both these issues are addressed by demonstrating a method for preparing biodegradable and photo-patternable constructs, where modified cellulose is cross-linked to form an insoluble structure in an aqueous environment. Specifically, hydroxypropyl cellulose (HPC) is rendered photocrosslinkable by grafting with methylacrylic anhydride, whose linkages also render the cross-linked construct hydrolytically degradable. The HPC is then cross-linked via a photolithography-based fabrication process. The feasibility of functionalizing these HPC structures with biochemical cues is verified post-fabrication, and shown to facilitate the adhesion of mesenchymal progenitor cells. The HPC constructs are shown to be biocompatible and hydrolytically degradable, thus enabling cell proliferation and cell migration, and therefore constituting an ideal candidate for long-term cell culture and implantable tissue scaffold applications. In addition, the potential of the HPC structure is demonstrated as an alternative substrate to paper microfluidic diagnostic devices for protein and cell assays.

Published
2014

78. Hydroxypropyl cellulose methacrylate as a photo-patternable and biodegradable hybrid paper substrate for cell culture and other bioapplications

Author

Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, Chan, Peggy P. Y., Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, and Chan, Peggy P. Y.

Abstract

In addition to the choice of appropriate material properties of the tissue construct to be used, such as its biocompatibility, biodegradability, cytocompatibility, and mechanical rigidity, the ability to incorporate microarchitectural patterns in the construct to mimic that found in the cellular microenvironment is an important consideration in tissue engineering and regenerative medicine. Both these issues are addressed by demonstrating a method for preparing biodegradable and photo-patternable constructs, where modified cellulose is cross-linked to form an insoluble structure in an aqueous environment. Specifically, hydroxypropyl cellulose (HPC) is rendered photocrosslinkable by grafting with methylacrylic anhydride, whose linkages also render the cross-linked construct hydrolytically degradable. The HPC is then cross-linked via a photolithography-based fabrication process. The feasibility of functionalizing these HPC structures with biochemical cues is verified post-fabrication, and shown to facilitate the adhesion of mesenchymal progenitor cells. The HPC constructs are shown to be biocompatible and hydrolytically degradable, thus enabling cell proliferation and cell migration, and therefore constituting an ideal candidate for long-term cell culture and implantable tissue scaffold applications. In addition, the potential of the HPC structure is demonstrated as an alternative substrate to paper microfluidic diagnostic devices for protein and cell assays.

Published
2014

79. Hydroxypropyl cellulose methacrylate as a photo-patternable and biodegradable hybrid paper substrate for cell culture and other bioapplications

Author

Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, Chan, Peggy P. Y., Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, and Chan, Peggy P. Y.

Abstract

In addition to the choice of appropriate material properties of the tissue construct to be used, such as its biocompatibility, biodegradability, cytocompatibility, and mechanical rigidity, the ability to incorporate microarchitectural patterns in the construct to mimic that found in the cellular microenvironment is an important consideration in tissue engineering and regenerative medicine. Both these issues are addressed by demonstrating a method for preparing biodegradable and photo-patternable constructs, where modified cellulose is cross-linked to form an insoluble structure in an aqueous environment. Specifically, hydroxypropyl cellulose (HPC) is rendered photocrosslinkable by grafting with methylacrylic anhydride, whose linkages also render the cross-linked construct hydrolytically degradable. The HPC is then cross-linked via a photolithography-based fabrication process. The feasibility of functionalizing these HPC structures with biochemical cues is verified post-fabrication, and shown to facilitate the adhesion of mesenchymal progenitor cells. The HPC constructs are shown to be biocompatible and hydrolytically degradable, thus enabling cell proliferation and cell migration, and therefore constituting an ideal candidate for long-term cell culture and implantable tissue scaffold applications. In addition, the potential of the HPC structure is demonstrated as an alternative substrate to paper microfluidic diagnostic devices for protein and cell assays.

Published
2014

80. Submission to the 2015 Defence White Paper

Author

Rahman, Christopher and Rahman, Christopher

Abstract

This submission establishes why a capable Defence Force is needed by outlining enduring features of the nature of international politics: * It remains an arena of competition and conflict, and even is war prone * Bad things happen, including surprises and the genuinely shocking * Uncertainty abounds It also explains why the character of the current strategic environment is not permissive of assumptions of peace and prosperity, due to both global and regional challenges: * Great power competition is growing * Russia and China, in particular, are dissatisfied powers * The United States remains global strategically preponderant but the international system is under significant strain * Australia’s interests are inexorably tied to the maintenance of the existing international system built around liberal principles, and we should contribute materially to its defence * In our own region China demonstrably is the primary source of instability and threat * Our region is undeniably a maritime one, and protection of the principles underpinning the international system as applied to the sea, such as freedom of navigation, must be protected It concludes by re-stating the benefits to Australia of pursuit of a maritime strategy capable of deterring or defeating threats as far from our own shores as possible. The force structure already outlined in previous white papers is largely sound, but needs to be fully implemented if the maritime strategy is to be effective.

Published
2014

81. Hydroxypropyl cellulose methacrylate as a photo-patternable and biodegradable hybrid paper substrate for cell culture and other bioapplications

Author

Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, Chan, Peggy P. Y., Qi, Aisha, Hoo, Siew Pei, Friend, James, Yeo, Leslie, Yue, Zhilian, and Chan, Peggy P. Y.

Abstract

In addition to the choice of appropriate material properties of the tissue construct to be used, such as its biocompatibility, biodegradability, cytocompatibility, and mechanical rigidity, the ability to incorporate microarchitectural patterns in the construct to mimic that found in the cellular microenvironment is an important consideration in tissue engineering and regenerative medicine. Both these issues are addressed by demonstrating a method for preparing biodegradable and photo-patternable constructs, where modified cellulose is cross-linked to form an insoluble structure in an aqueous environment. Specifically, hydroxypropyl cellulose (HPC) is rendered photocrosslinkable by grafting with methylacrylic anhydride, whose linkages also render the cross-linked construct hydrolytically degradable. The HPC is then cross-linked via a photolithography-based fabrication process. The feasibility of functionalizing these HPC structures with biochemical cues is verified post-fabrication, and shown to facilitate the adhesion of mesenchymal progenitor cells. The HPC constructs are shown to be biocompatible and hydrolytically degradable, thus enabling cell proliferation and cell migration, and therefore constituting an ideal candidate for long-term cell culture and implantable tissue scaffold applications. In addition, the potential of the HPC structure is demonstrated as an alternative substrate to paper microfluidic diagnostic devices for protein and cell assays.

Published
2014

82. Fusion of nacre, mussel, and lotus leaf: bio-inspired graphene composite paper with multifunctional integration

Author

Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, Jiang, Lei, Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, and Jiang, Lei

Abstract

Multifunctional integration is an inherent characteristic for biological materials with multiscale structures. Learning from nature is an effective approach for scientists and engineers to construct multifunctional materials. In nature, mollusks (abalone), mussels, and the lotus have evolved different and optimized solutions to survive. Here, bio-inspired multifunctional graphene composite paper was fabricated in situ through the fusion of the different biological solutions from nacre (brick-and-mortar structure), mussel adhesive protein (adhesive property and reducing character), and the lotus leaf (self-cleaning effect). Owing to the special properties (self-polymerization, reduction, and adhesion), dopamine could be simultaneously used as a reducing agent for graphene oxide and as an adhesive, similar to the mortar in nacre, to crosslink the adjacent graphene. The resultant nacre-like graphene paper exhibited stable superhydrophobicity, self-cleaning, anti-corrosion, and remarkable mechanical properties underwater.

Published
2013

83. Fusion of nacre, mussel, and lotus leaf: bio-inspired graphene composite paper with multifunctional integration

Author

Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, Jiang, Lei, Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, and Jiang, Lei

Abstract

Multifunctional integration is an inherent characteristic for biological materials with multiscale structures. Learning from nature is an effective approach for scientists and engineers to construct multifunctional materials. In nature, mollusks (abalone), mussels, and the lotus have evolved different and optimized solutions to survive. Here, bio-inspired multifunctional graphene composite paper was fabricated in situ through the fusion of the different biological solutions from nacre (brick-and-mortar structure), mussel adhesive protein (adhesive property and reducing character), and the lotus leaf (self-cleaning effect). Owing to the special properties (self-polymerization, reduction, and adhesion), dopamine could be simultaneously used as a reducing agent for graphene oxide and as an adhesive, similar to the mortar in nacre, to crosslink the adjacent graphene. The resultant nacre-like graphene paper exhibited stable superhydrophobicity, self-cleaning, anti-corrosion, and remarkable mechanical properties underwater.

Published
2013

84. Description and comparison of quality of electronic versus paper-based resident admission forms in Australian aged care facilities

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose To describe the paper-based and electronic formats of resident admission forms used in several aged care facilities in Australia and to compare the extent to which resident admission information was documented in paper-based and the electronic health records. Methods Retrospective auditing and comparison of the documentation quality of paper-based and electronic resident admission forms were conducted. A checklist of admission data was qualitatively derived from different formats of the admission forms collected. Three measures were used to assess the quality of documentation of the admission forms, including completeness rate, comprehensiveness rate and frequency of documented data element. The associations between the number of items and their completeness and comprehensiveness rates were estimated at a general level and at each information category level. Results Various paper-based and electronic formats of admission forms were collected, reflecting varying practice among the participant facilities. The overall completeness and comprehensiveness rates of the admission forms were poor, but were higher in the electronic health records than in the paper-based records (60% versus 56% and 40% versus 29% respectively, p < 0.01). There were differences in the overall completeness and comprehensiveness rates between the different formats of admission forms (p < 0.01). At each information category level, varying degrees of difference in the completeness and comprehensiveness rates were found between different form formats and between the paper-based and the electronic records. A negative association between the completeness rate and the number of items in a form was found at each information category level (p < 0.01), i.e., more data items designed in a form, the less likely that the items would be completely filled. However, the associations between the comprehensiveness rates and the number of items were highly positive at both overall and individual informatio

Published
2013

85. Description and comparison of quality of electronic versus paper-based resident admission forms in Australian aged care facilities

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose To describe the paper-based and electronic formats of resident admission forms used in several aged care facilities in Australia and to compare the extent to which resident admission information was documented in paper-based and the electronic health records. Methods Retrospective auditing and comparison of the documentation quality of paper-based and electronic resident admission forms were conducted. A checklist of admission data was qualitatively derived from different formats of the admission forms collected. Three measures were used to assess the quality of documentation of the admission forms, including completeness rate, comprehensiveness rate and frequency of documented data element. The associations between the number of items and their completeness and comprehensiveness rates were estimated at a general level and at each information category level. Results Various paper-based and electronic formats of admission forms were collected, reflecting varying practice among the participant facilities. The overall completeness and comprehensiveness rates of the admission forms were poor, but were higher in the electronic health records than in the paper-based records (60% versus 56% and 40% versus 29% respectively, p < 0.01). There were differences in the overall completeness and comprehensiveness rates between the different formats of admission forms (p < 0.01). At each information category level, varying degrees of difference in the completeness and comprehensiveness rates were found between different form formats and between the paper-based and the electronic records. A negative association between the completeness rate and the number of items in a form was found at each information category level (p < 0.01), i.e., more data items designed in a form, the less likely that the items would be completely filled. However, the associations between the comprehensiveness rates and the number of items were highly positive at both overall and individual informatio

Published
2013

86. Description and comparison of quality of electronic versus paper-based resident admission forms in Australian aged care facilities

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose To describe the paper-based and electronic formats of resident admission forms used in several aged care facilities in Australia and to compare the extent to which resident admission information was documented in paper-based and the electronic health records. Methods Retrospective auditing and comparison of the documentation quality of paper-based and electronic resident admission forms were conducted. A checklist of admission data was qualitatively derived from different formats of the admission forms collected. Three measures were used to assess the quality of documentation of the admission forms, including completeness rate, comprehensiveness rate and frequency of documented data element. The associations between the number of items and their completeness and comprehensiveness rates were estimated at a general level and at each information category level. Results Various paper-based and electronic formats of admission forms were collected, reflecting varying practice among the participant facilities. The overall completeness and comprehensiveness rates of the admission forms were poor, but were higher in the electronic health records than in the paper-based records (60% versus 56% and 40% versus 29% respectively, p < 0.01). There were differences in the overall completeness and comprehensiveness rates between the different formats of admission forms (p < 0.01). At each information category level, varying degrees of difference in the completeness and comprehensiveness rates were found between different form formats and between the paper-based and the electronic records. A negative association between the completeness rate and the number of items in a form was found at each information category level (p < 0.01), i.e., more data items designed in a form, the less likely that the items would be completely filled. However, the associations between the comprehensiveness rates and the number of items were highly positive at both overall and individual informatio

Published
2013

87. Description and comparison of documentation of nursing assessment between paper-based and electronic systems in Australian aged care homes

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose: To describe nursing assessment documentation practices in aged care organizations and to evaluate the quality of electronic versus paper-based documentation of nursing assessment. Methods: This was a retrospective nursing documentation audit study. Study samples were 2299 paper-based and 6997 electronic resident assessment forms contained in 159 paper-based and 249 electronic resident nursing records, respectively, from three aged care organizations. The practice of nursing assessment documentation in participating aged care homes was described. Three attributes of quality of nursing assessment documentation were evaluated: format and structure, process, and content by seven measures: quantity, completeness, timeliness comprehensiveness, frequencies of documentation specific to care domains and data items, and whether assessment forms were signed and dated. Results: Varying practice in documentation of nursing assessment was found among different aged care organizations and homes. Electronic resident records contained higher numbers and more comprehensive resident assessment forms than paper-based records. The frequency of documentation was higher in electronic than in paper-based records in relation to most care domains. There was no difference between the two types of documentation systems on other aspects of nursing assessment documentation (overall completeness and timeliness, variation of frequencies among different care domains, and item completion in personal hygiene assessment forms). Conclusions: Electronic nursing documentation systems could improve the quality of documentation structure and format, process and content in the aspects of quantity, comprehensiveness and signing and dating of assessment forms. Further studies are needed to understand the factors leading to the variations of practice and the limitations of nursing assessment documentation and to evaluate documentation quality from a clinical perspective. © 2013 Elsevier Ireland Ltd.

Published
2013

88. Description and comparison of quality of electronic versus paper-based resident admission forms in Australian aged care facilities

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose To describe the paper-based and electronic formats of resident admission forms used in several aged care facilities in Australia and to compare the extent to which resident admission information was documented in paper-based and the electronic health records. Methods Retrospective auditing and comparison of the documentation quality of paper-based and electronic resident admission forms were conducted. A checklist of admission data was qualitatively derived from different formats of the admission forms collected. Three measures were used to assess the quality of documentation of the admission forms, including completeness rate, comprehensiveness rate and frequency of documented data element. The associations between the number of items and their completeness and comprehensiveness rates were estimated at a general level and at each information category level. Results Various paper-based and electronic formats of admission forms were collected, reflecting varying practice among the participant facilities. The overall completeness and comprehensiveness rates of the admission forms were poor, but were higher in the electronic health records than in the paper-based records (60% versus 56% and 40% versus 29% respectively, p < 0.01). There were differences in the overall completeness and comprehensiveness rates between the different formats of admission forms (p < 0.01). At each information category level, varying degrees of difference in the completeness and comprehensiveness rates were found between different form formats and between the paper-based and the electronic records. A negative association between the completeness rate and the number of items in a form was found at each information category level (p < 0.01), i.e., more data items designed in a form, the less likely that the items would be completely filled. However, the associations between the comprehensiveness rates and the number of items were highly positive at both overall and individual informatio

Published
2013

89. Description and comparison of documentation of nursing assessment between paper-based and electronic systems in Australian aged care homes

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose: To describe nursing assessment documentation practices in aged care organizations and to evaluate the quality of electronic versus paper-based documentation of nursing assessment. Methods: This was a retrospective nursing documentation audit study. Study samples were 2299 paper-based and 6997 electronic resident assessment forms contained in 159 paper-based and 249 electronic resident nursing records, respectively, from three aged care organizations. The practice of nursing assessment documentation in participating aged care homes was described. Three attributes of quality of nursing assessment documentation were evaluated: format and structure, process, and content by seven measures: quantity, completeness, timeliness comprehensiveness, frequencies of documentation specific to care domains and data items, and whether assessment forms were signed and dated. Results: Varying practice in documentation of nursing assessment was found among different aged care organizations and homes. Electronic resident records contained higher numbers and more comprehensive resident assessment forms than paper-based records. The frequency of documentation was higher in electronic than in paper-based records in relation to most care domains. There was no difference between the two types of documentation systems on other aspects of nursing assessment documentation (overall completeness and timeliness, variation of frequencies among different care domains, and item completion in personal hygiene assessment forms). Conclusions: Electronic nursing documentation systems could improve the quality of documentation structure and format, process and content in the aspects of quantity, comprehensiveness and signing and dating of assessment forms. Further studies are needed to understand the factors leading to the variations of practice and the limitations of nursing assessment documentation and to evaluate documentation quality from a clinical perspective. © 2013 Elsevier Ireland Ltd.

Published
2013

90. Fusion of nacre, mussel, and lotus leaf: bio-inspired graphene composite paper with multifunctional integration

Author

Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, Jiang, Lei, Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, and Jiang, Lei

Abstract

Multifunctional integration is an inherent characteristic for biological materials with multiscale structures. Learning from nature is an effective approach for scientists and engineers to construct multifunctional materials. In nature, mollusks (abalone), mussels, and the lotus have evolved different and optimized solutions to survive. Here, bio-inspired multifunctional graphene composite paper was fabricated in situ through the fusion of the different biological solutions from nacre (brick-and-mortar structure), mussel adhesive protein (adhesive property and reducing character), and the lotus leaf (self-cleaning effect). Owing to the special properties (self-polymerization, reduction, and adhesion), dopamine could be simultaneously used as a reducing agent for graphene oxide and as an adhesive, similar to the mortar in nacre, to crosslink the adjacent graphene. The resultant nacre-like graphene paper exhibited stable superhydrophobicity, self-cleaning, anti-corrosion, and remarkable mechanical properties underwater.

Published
2013

91. The legal aspects of connectivity conservation: a concept paper

Author

Lausche, Barbara, Farrier, Malcolm, Verschuuren, Jonathan, La Vina, Antonio G. M, Trouwborst, Arie, Lausche, Barbara, Farrier, Malcolm, Verschuuren, Jonathan, La Vina, Antonio G. M, and Trouwborst, Arie

Abstract

This publication aims to advance conceptual thinking and legal understanding about important law and policy tools and options for supporting the connectivity of protected area systems. The legal research and analyses reflected in this paper span international, regional, national and local levels. A range of legal instruments existing in most national legal systems, from conservation and sustainable use laws to land use planning, development control, voluntary conservation and economic instruments are explored. The paper is intended to offer concrete ideas of existing and potential legal tools and approaches that countries can use immediately to initiate priority connectivity conservation actions and to strengthen them progressively. It also is intended to provide a conceptual baseline for future research and case studies to continue to define and develop connectivity conservation law for supporting protected areas and for providing opportunities to address climate change as part of biodiversity conservation agendas.

Published
2013

92. Fusion of nacre, mussel, and lotus leaf: bio-inspired graphene composite paper with multifunctional integration

Author

Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, Jiang, Lei, Zhong, Da, Yang, Qinglin, Guo, Lin, Dou, S X, Liu, Kesong, and Jiang, Lei

Abstract

Multifunctional integration is an inherent characteristic for biological materials with multiscale structures. Learning from nature is an effective approach for scientists and engineers to construct multifunctional materials. In nature, mollusks (abalone), mussels, and the lotus have evolved different and optimized solutions to survive. Here, bio-inspired multifunctional graphene composite paper was fabricated in situ through the fusion of the different biological solutions from nacre (brick-and-mortar structure), mussel adhesive protein (adhesive property and reducing character), and the lotus leaf (self-cleaning effect). Owing to the special properties (self-polymerization, reduction, and adhesion), dopamine could be simultaneously used as a reducing agent for graphene oxide and as an adhesive, similar to the mortar in nacre, to crosslink the adjacent graphene. The resultant nacre-like graphene paper exhibited stable superhydrophobicity, self-cleaning, anti-corrosion, and remarkable mechanical properties underwater.

Published
2013

93. Description and comparison of quality of electronic versus paper-based resident admission forms in Australian aged care facilities

Author

Wang, Ning, Yu, Ping, Hailey, David, Wang, Ning, Yu, Ping, and Hailey, David

Abstract

Purpose To describe the paper-based and electronic formats of resident admission forms used in several aged care facilities in Australia and to compare the extent to which resident admission information was documented in paper-based and the electronic health records. Methods Retrospective auditing and comparison of the documentation quality of paper-based and electronic resident admission forms were conducted. A checklist of admission data was qualitatively derived from different formats of the admission forms collected. Three measures were used to assess the quality of documentation of the admission forms, including completeness rate, comprehensiveness rate and frequency of documented data element. The associations between the number of items and their completeness and comprehensiveness rates were estimated at a general level and at each information category level. Results Various paper-based and electronic formats of admission forms were collected, reflecting varying practice among the participant facilities. The overall completeness and comprehensiveness rates of the admission forms were poor, but were higher in the electronic health records than in the paper-based records (60% versus 56% and 40% versus 29% respectively, p < 0.01). There were differences in the overall completeness and comprehensiveness rates between the different formats of admission forms (p < 0.01). At each information category level, varying degrees of difference in the completeness and comprehensiveness rates were found between different form formats and between the paper-based and the electronic records. A negative association between the completeness rate and the number of items in a form was found at each information category level (p < 0.01), i.e., more data items designed in a form, the less likely that the items would be completely filled. However, the associations between the comprehensiveness rates and the number of items were highly positive at both overall and individual informatio

Published
2013

94. Psychophysiology in Australasia. Selected papers from the 22nd Annual Meeting of the Australasian Society for Psychophysiology, ASP2012, held at the University of New South Wales, Sydney, Australia, 28-30 November 2012

Author

Barry, Robert, Broyd, Samantha, Bruggemann, Jason, Budd, Timothy W, Johnstone, Stuart, Rushby, Jacqueline, Smith, Janette, Barry, Robert, Broyd, Samantha, Bruggemann, Jason, Budd, Timothy W, Johnstone, Stuart, Rushby, Jacqueline, and Smith, Janette

Abstract

Editorial The idea of a Special Issue of the International Journal of Psychophysiology focusing on research "down under" emerged in 2012 from discussions between the Society President (Robert Barry), the journal Publisher (Shamus O'Reilly), and the Editor-in-Chief (Connie Duncan). It was greeted with enthusiasm by the Society Executive, who set up an Editorial Committee to progress the project, beginning with establishment of timelines, evaluations of the conference abstracts accepted for presentation at the 2012 meeting of the Australasian Society for Psychophysiology, ASP2012, and critical scrutiny of each conference presentation. Formal invitations for selected authors to contribute to the Special Issue followed the conference. Members of the ASP Editorial Committee then served as Action Editors for the Special Issue. This Special Issue contains the 24 papers that survived peer review, and provides insight into the current state of psychophysiology in Australasia. It is interesting to note that, although geographically far from Europe and the US, we are not so isolated these days - the Special Issue includes papers based on ASP2012 presentations by members from Korea and Poland, as well as the expected number from Australia. This internationalisation of ASP reflects the increasing scientific linkages apparent around the globe, and fits well with the ongoing aims of the journal's parent body, the International Organization of Psychophysiology (IOP). Note that ASP formally affiliated with IOP in 2000.

Published
2013

96. The legal aspects of connectivity conservation: a concept paper

Author

Lausche, Barbara, Farrier, Malcolm, Verschuuren, Jonathan, La Vina, Antonio G. M, Trouwborst, Arie, Lausche, Barbara, Farrier, Malcolm, Verschuuren, Jonathan, La Vina, Antonio G. M, and Trouwborst, Arie

Abstract

This publication aims to advance conceptual thinking and legal understanding about important law and policy tools and options for supporting the connectivity of protected area systems. The legal research and analyses reflected in this paper span international, regional, national and local levels. A range of legal instruments existing in most national legal systems, from conservation and sustainable use laws to land use planning, development control, voluntary conservation and economic instruments are explored. The paper is intended to offer concrete ideas of existing and potential legal tools and approaches that countries can use immediately to initiate priority connectivity conservation actions and to strengthen them progressively. It also is intended to provide a conceptual baseline for future research and case studies to continue to define and develop connectivity conservation law for supporting protected areas and for providing opportunities to address climate change as part of biodiversity conservation agendas.

Published
2013

97. Fellow Australian January 1985. Silkscreen on paper

Author

Pickett, Byron and Pickett, Byron

Abstract

This is a self-portrait with a view-finder (or rifle-sight?) centred on the artist’s face. The shirt is yellow, the hair black and the skin reddish in tone, giving an approximation to the colours of the Aboriginal flag.

Published
2017

98. Another Story 1988. Silkscreen on paper

Author

Morgan, Sally and Morgan, Sally

Abstract

Male and female black stick figures like those of traditional mimi spirit figures are outlined in yellow and placed against a reddish background, once again echoing the colours of the desert and of the Aboriginal flag.

Published
2017

99. Taken Away, Silkscreen on paper

Author

Morgan, Sally and Morgan, Sally

Abstract

This print was designed for the National Gallery in Canberra. It is from a woman’s perspective and illustrates two important things that Aboriginal women have lost since colonisation in 1788, their land and their children.

Published
2017

100. Fabricating electrodes for amperometric detection in hybrid paper/polymer lab-on-a-chip devices

Author

Godino, Neus, Gorkin III, Robert A, Bourke, Ken, Ducree, Jens, Godino, Neus, Gorkin III, Robert A, Bourke, Ken, and Ducree, Jens

Abstract

We present a novel, low-resource fabrication and assembly method for creating disposable amperometric detectors in hybrid paper-polymer devices. Currently, mere paper-based microfluidics is far from being able to achieve the same level of process control and integration as state-of-the-art microfluidic devices made of polymers. To overcome this limitation, in this work both substrate types are synergistically combined through a hybrid, multi-component/multi-material system assembly. Using established inkjet wax printing, we transform the paper into a profoundly hydrophobic substrate in order to create carbon electrodes which are simply patterned from carbon inks via custom made adhesive stencils. By virtue of the compressibility of the paper substrate, the resulting electrodeon- paper hybrids can be directly embedded in conventional, 3D polymeric devices by bonding through an adhesive layer. This manufacturing scheme can be easily recreated with readily available off-the-shelf equipment, and is extremely cost-efficient and rapid with turn-around times of only a few hours.

Published
2012