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1. A toilet paper run is like a bank run. The economic fixes are about the same

Author

Paloyo, Alfredo R and Paloyo, Alfredo R

Abstract

Panic buying knows no borders. Shoppers in Australia, Japan, Hong Kong and the United States have caught toilet paper fever on the back of the COVID-19 coronavirus. Shop shelves are being emptied as quickly as they can be stocked. This panic buying is the result of the fear of missing out. It’s a phenomenon of consumer behaviour similar to what happens when there is a run on banks. A bank run occurs when depositors of a bank withdraw cash because they believe it might collapse. What we’re seeing now is a toilet-paper run.

Published
2020

6. Progressive Australian views will win out over parochial Foreign Policy White Paper

Author

Mickhail, George and Mickhail, George

Abstract

No doubt, Australia's parochial anxieties about China in its recent Foreign Policy White Paper stem from a Eurocentric establishment with entrenched "Cold-War" era views about international relations and fantasies about preserving a bygone legacy of Anglo-American hegemony.

Published
2017

7. 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

8. 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

9. The Australian Governments 'White Paper on Reform of the Federation' and the Future of Australian Local Government

Author

Grant, Bligh, Ryan, Roberta, Kelly, Andrew H, Grant, Bligh, Ryan, Roberta, and Kelly, Andrew H

Abstract

The Abbott Government announced its White Paper review of the Australian Federation on June 28, 2014. Set against this backdrop, discussions of the future of Australian local government may provoke an assumption that its role will be cruelled. However, reflection suggests that such an assumption is misplaced. In particular, when the complexities of regionalism in Australia are considered, the potential role of local government begs revisiting.We argue that local government ought to adopt a forthright position in the current debate, particularly with respect to financial reform.

Published
2016

10. 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

11. 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

12. 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

13. 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

14. The quality of paper-based versus electronic nursing care plan in Australian aged care homes: A documentation audit study

Author

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

Abstract

2015. Introduction: The nursing care plan plays an essential role in supporting care provision in Australian aged care. The implementation of electronic systems in aged care homes was anticipated to improve documentation quality. Standardized nursing terminologies, developed to improve communication and advance the nursing profession, are not required in aged care practice. The language used by nurses in the nursing care plan and the effect of the electronic system on documentation quality in residential aged care need to be investigated. Purpose: To describe documentation practice for the nursing care plan in Australian residential aged care homes and to compare the quantity and quality of documentation in paper-based and electronic nursing care plans. Methods: A nursing documentation audit was conducted in seven residential aged care homes in Australia. One hundred and eleven paper-based and 194 electronic nursing care plans, conveniently selected, were reviewed. The quantity of documentation in a care plan was determined by the number of phrases describing a resident problem and the number of goals and interventions. The quality of documentation was measured using 16 relevant questions in an instrument developed for the study. Results: There was a tendency to omit 'nursing problem' or 'nursing diagnosis' in the nursing process by changing these terms (used in the paper-based care plan) to 'observation' in the electronic version. The electronic nursing care plan documented more signs and symptoms of resident problems and evaluation of care than the paper-based format (48.30 vs. 47.34 out of 60, P <. 0.01), but had a lower total mean quality score. The electronic care plan contained fewer problem or diagnosis statements, contributing factors and resident outcomes than the paper-based system (P <. 0.01). Both types of nursing care plan were weak in documenting measurable and concrete resident outcomes. Conclusions: The overall quality of documentation content for th

Published
2015

15. The quality of paper-based versus electronic nursing care plan in Australian aged care homes: A documentation audit study

Author

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

Abstract

2015. Introduction: The nursing care plan plays an essential role in supporting care provision in Australian aged care. The implementation of electronic systems in aged care homes was anticipated to improve documentation quality. Standardized nursing terminologies, developed to improve communication and advance the nursing profession, are not required in aged care practice. The language used by nurses in the nursing care plan and the effect of the electronic system on documentation quality in residential aged care need to be investigated. Purpose: To describe documentation practice for the nursing care plan in Australian residential aged care homes and to compare the quantity and quality of documentation in paper-based and electronic nursing care plans. Methods: A nursing documentation audit was conducted in seven residential aged care homes in Australia. One hundred and eleven paper-based and 194 electronic nursing care plans, conveniently selected, were reviewed. The quantity of documentation in a care plan was determined by the number of phrases describing a resident problem and the number of goals and interventions. The quality of documentation was measured using 16 relevant questions in an instrument developed for the study. Results: There was a tendency to omit 'nursing problem' or 'nursing diagnosis' in the nursing process by changing these terms (used in the paper-based care plan) to 'observation' in the electronic version. The electronic nursing care plan documented more signs and symptoms of resident problems and evaluation of care than the paper-based format (48.30 vs. 47.34 out of 60, P <. 0.01), but had a lower total mean quality score. The electronic care plan contained fewer problem or diagnosis statements, contributing factors and resident outcomes than the paper-based system (P <. 0.01). Both types of nursing care plan were weak in documenting measurable and concrete resident outcomes. Conclusions: The overall quality of documentation content for th

Published
2015

16. The quality of paper-based versus electronic nursing care plan in Australian aged care homes: A documentation audit study

Author

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

Abstract

2015. Introduction: The nursing care plan plays an essential role in supporting care provision in Australian aged care. The implementation of electronic systems in aged care homes was anticipated to improve documentation quality. Standardized nursing terminologies, developed to improve communication and advance the nursing profession, are not required in aged care practice. The language used by nurses in the nursing care plan and the effect of the electronic system on documentation quality in residential aged care need to be investigated. Purpose: To describe documentation practice for the nursing care plan in Australian residential aged care homes and to compare the quantity and quality of documentation in paper-based and electronic nursing care plans. Methods: A nursing documentation audit was conducted in seven residential aged care homes in Australia. One hundred and eleven paper-based and 194 electronic nursing care plans, conveniently selected, were reviewed. The quantity of documentation in a care plan was determined by the number of phrases describing a resident problem and the number of goals and interventions. The quality of documentation was measured using 16 relevant questions in an instrument developed for the study. Results: There was a tendency to omit 'nursing problem' or 'nursing diagnosis' in the nursing process by changing these terms (used in the paper-based care plan) to 'observation' in the electronic version. The electronic nursing care plan documented more signs and symptoms of resident problems and evaluation of care than the paper-based format (48.30 vs. 47.34 out of 60, P <. 0.01), but had a lower total mean quality score. The electronic care plan contained fewer problem or diagnosis statements, contributing factors and resident outcomes than the paper-based system (P <. 0.01). Both types of nursing care plan were weak in documenting measurable and concrete resident outcomes. Conclusions: The overall quality of documentation content for th

Published
2015

17. The quality of paper-based versus electronic nursing care plan in Australian aged care homes: A documentation audit study

Author

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

Abstract

2015. Introduction: The nursing care plan plays an essential role in supporting care provision in Australian aged care. The implementation of electronic systems in aged care homes was anticipated to improve documentation quality. Standardized nursing terminologies, developed to improve communication and advance the nursing profession, are not required in aged care practice. The language used by nurses in the nursing care plan and the effect of the electronic system on documentation quality in residential aged care need to be investigated. Purpose: To describe documentation practice for the nursing care plan in Australian residential aged care homes and to compare the quantity and quality of documentation in paper-based and electronic nursing care plans. Methods: A nursing documentation audit was conducted in seven residential aged care homes in Australia. One hundred and eleven paper-based and 194 electronic nursing care plans, conveniently selected, were reviewed. The quantity of documentation in a care plan was determined by the number of phrases describing a resident problem and the number of goals and interventions. The quality of documentation was measured using 16 relevant questions in an instrument developed for the study. Results: There was a tendency to omit 'nursing problem' or 'nursing diagnosis' in the nursing process by changing these terms (used in the paper-based care plan) to 'observation' in the electronic version. The electronic nursing care plan documented more signs and symptoms of resident problems and evaluation of care than the paper-based format (48.30 vs. 47.34 out of 60, P <. 0.01), but had a lower total mean quality score. The electronic care plan contained fewer problem or diagnosis statements, contributing factors and resident outcomes than the paper-based system (P <. 0.01). Both types of nursing care plan were weak in documenting measurable and concrete resident outcomes. Conclusions: The overall quality of documentation content for th

Published
2015

18. Flexible free-standing graphene paper with interconnected porous structure for energy storage

Author

Shu, Kewei, Wang, Caiyun, Li, Sha, Zhao, Chen, Yang, Yang, Liu, Hua-Kun, Wallace, Gordon G, Shu, Kewei, Wang, Caiyun, Li, Sha, Zhao, Chen, Yang, Yang, Liu, Hua-Kun, and Wallace, Gordon G

Abstract

A novel porous graphene paper is prepared via freeze drying a wet graphene oxide gel, followed by thermal and chemical reduction. The macroscopic structure of the formed graphene paper can be tuned by the water content in the gel precursor. With 92% water content, an interconnected macroporous network can be formed. This porous graphene (PG) paper exhibits excellent electrochemical properties. It can deliver a high discharge capacity of 420 mA h g−1 at a current density of 2000 mA g−1 when used as binder-free lithium ion battery anode. PG paper exhibits a specific capacitance of 137 F g−1 at 1 A g−1 in a flexible all-solid-state supercapacitor with PVA/H2SO4 electrolyte. It can maintain 94% of its capacitance under bending. This electrochemical performance and mechanical flexibility makes it an excellent material for flexible energy storage devices.

Published
2015

19. Flexible free-standing graphene paper with interconnected porous structure for energy storage

Author

Shu, Kewei, Wang, Caiyun, Li, Sha, Zhao, Chen, Yang, Yang, Liu, Hua-Kun, Wallace, Gordon G, Shu, Kewei, Wang, Caiyun, Li, Sha, Zhao, Chen, Yang, Yang, Liu, Hua-Kun, and Wallace, Gordon G

Abstract

A novel porous graphene paper is prepared via freeze drying a wet graphene oxide gel, followed by thermal and chemical reduction. The macroscopic structure of the formed graphene paper can be tuned by the water content in the gel precursor. With 92% water content, an interconnected macroporous network can be formed. This porous graphene (PG) paper exhibits excellent electrochemical properties. It can deliver a high discharge capacity of 420 mA h g−1 at a current density of 2000 mA g−1 when used as binder-free lithium ion battery anode. PG paper exhibits a specific capacitance of 137 F g−1 at 1 A g−1 in a flexible all-solid-state supercapacitor with PVA/H2SO4 electrolyte. It can maintain 94% of its capacitance under bending. This electrochemical performance and mechanical flexibility makes it an excellent material for flexible energy storage devices.

Published
2015

20. The quality of paper-based versus electronic nursing care plan in Australian aged care homes: A documentation audit study

Author

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

Abstract

2015. Introduction: The nursing care plan plays an essential role in supporting care provision in Australian aged care. The implementation of electronic systems in aged care homes was anticipated to improve documentation quality. Standardized nursing terminologies, developed to improve communication and advance the nursing profession, are not required in aged care practice. The language used by nurses in the nursing care plan and the effect of the electronic system on documentation quality in residential aged care need to be investigated. Purpose: To describe documentation practice for the nursing care plan in Australian residential aged care homes and to compare the quantity and quality of documentation in paper-based and electronic nursing care plans. Methods: A nursing documentation audit was conducted in seven residential aged care homes in Australia. One hundred and eleven paper-based and 194 electronic nursing care plans, conveniently selected, were reviewed. The quantity of documentation in a care plan was determined by the number of phrases describing a resident problem and the number of goals and interventions. The quality of documentation was measured using 16 relevant questions in an instrument developed for the study. Results: There was a tendency to omit 'nursing problem' or 'nursing diagnosis' in the nursing process by changing these terms (used in the paper-based care plan) to 'observation' in the electronic version. The electronic nursing care plan documented more signs and symptoms of resident problems and evaluation of care than the paper-based format (48.30 vs. 47.34 out of 60, P <. 0.01), but had a lower total mean quality score. The electronic care plan contained fewer problem or diagnosis statements, contributing factors and resident outcomes than the paper-based system (P <. 0.01). Both types of nursing care plan were weak in documenting measurable and concrete resident outcomes. Conclusions: The overall quality of documentation content for th

Published
2015

21. Flexible free-standing graphene paper with interconnected porous structure for energy storage

Author

Shu, Kewei, Wang, Caiyun, Li, Sha, Zhao, Chen, Yang, Yang, Liu, Hua-Kun, Wallace, Gordon G, Shu, Kewei, Wang, Caiyun, Li, Sha, Zhao, Chen, Yang, Yang, Liu, Hua-Kun, and Wallace, Gordon G

Abstract

A novel porous graphene paper is prepared via freeze drying a wet graphene oxide gel, followed by thermal and chemical reduction. The macroscopic structure of the formed graphene paper can be tuned by the water content in the gel precursor. With 92% water content, an interconnected macroporous network can be formed. This porous graphene (PG) paper exhibits excellent electrochemical properties. It can deliver a high discharge capacity of 420 mA h g−1 at a current density of 2000 mA g−1 when used as binder-free lithium ion battery anode. PG paper exhibits a specific capacitance of 137 F g−1 at 1 A g−1 in a flexible all-solid-state supercapacitor with PVA/H2SO4 electrolyte. It can maintain 94% of its capacitance under bending. This electrochemical performance and mechanical flexibility makes it an excellent material for flexible energy storage devices.

Published
2015

22. 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

23. 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

24. 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

25. 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

26. Cohort protocol paper: The Pain and Opioids In Treatment (POINT) study

Author

Campbell, Gabrielle, Mattick, Richard P, Bruno, Raimondo, Larance, Briony K, Nielsen, Suzanne, Cohen, Milton, Lintzeris, Nicholas, Shand, Fiona, Hall, Wayne, Hoban, Bianca, Kehler, Chyanne, Farrell, Michael P, Degenhardt, Louisa, Campbell, Gabrielle, Mattick, Richard P, Bruno, Raimondo, Larance, Briony K, Nielsen, Suzanne, Cohen, Milton, Lintzeris, Nicholas, Shand, Fiona, Hall, Wayne, Hoban, Bianca, Kehler, Chyanne, Farrell, Michael P, and Degenhardt, Louisa

Abstract

Background Internationally, there is concern about the increased prescribing of pharmaceutical opioids for chronic non-cancer pain (CNCP). In part, this is related to limited knowledge about the long-term benefits and outcomes of opioid use for CNCP. There has also been increased injection of some pharmaceutical opioids by people who inject drugs, and for some patients, the development of problematic and/or dependent use. To date, much of the research on the use of pharmaceutical opioids among people with CNCP, have been clinical trials that have excluded patients with complex needs, and have been of limited duration (i.e. fewer than 12 weeks). The Pain and Opioids In Treatment (POINT) study is unique study that aims to: 1) examine patterns of opioid use in a cohort of patients prescribed opioids for CNCP; 2) examine demographic and clinical predictors of adverse events, including opioid abuse or dependence, medication diversion, other drug use, and overdose; and 3) identify factors predicting poor pain relief and other outcomes. Methods/Design The POINT cohort comprises around 1,500 people across Australia prescribed pharmaceutical opioids for CNCP. Participants will be followed-up at four time points over a two year period. POINT will collect information on demographics, physical and medication use history, pain, mental health, drug and alcohol use, non-adherence, medication diversion, sleep, and quality of life. Data linkage will provide information on medications and services from Medicare (Australia's national health care scheme). Data on those who receive opioid substitution therapy, and on mortality, will be linked. Discussion This study will rigorously examine prescription opioid use among CNCP patients, and examine its relationship to important health outcomes. The extent to which opioids for chronic pain is associated with pain reduction, quality of life, mental and physical health, aberrant medication behavior and substance use disorders will be extensive

Published
2014

27. 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

28. 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

29. 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

30. 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

31. From paper to (i)pad: The development of the Thermal Risk App

Author

Gopaldasani, Vinodkumar, Di Corleto, Ross, Di Corleto, Luke, Bennett, Andrew, Whitelaw, Jane L, Gopaldasani, Vinodkumar, Di Corleto, Ross, Di Corleto, Luke, Bennett, Andrew, and Whitelaw, Jane L

Abstract

It has long been recognised that a key control in the management of heat stress is the education of the worker in relation to the impact of the many variables in a hot environment. For too many years the use of one parameter, the air temperature, has been the focal point of the general workforce as the measure of heat stress. Whilst there have been many tools and training materials available, most have relied on a formal training program or complicated assessments. The Basic Thermal Risk Assessment (BTRA) was introduced via the AIOH heat stress standard in 2003 as a first level assessment and was originally developed as a training tool. However over the years it has evolved in a different direction. The review and modification of this tool in the latest AIOH Heat Stress Guide began its journey back to its original intent. In early 2014 a question was posed on a Heat Stress forum discussion: "If you had a Heat Stress App for your workers, what would you want it to tell them?" This triggered a chain of events that led to the development of the Thermal Risk App. This is its story.

Published
2014

32. 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

33. 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

34. 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

35. 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

36. 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

37. 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

38. 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

39. 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

40. 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

41. Development of the quality of Australian nursing documentation in aged care (QANDAC) instrument to measure paper-based and electronic resident records

Author

Wang, Ning, Bjorvell, Catrin, Yu, Ping, Wang, Ning, Bjorvell, Catrin, and Yu, Ping

Abstract

Aim: To develop an Australian nursing documentation in aged care (Quality of Australian Nursing Documentation in Aged Care (QANDAC)) instrument to measure the quality of paper-based and electronic resident records. Methods: The instrument was based on the nursing process model and on three attributes of documentation quality identified in a systematic review. The development process involved five phases following approaches to designing criterion-referenced measures. The face and content validities and the inter-rater reliability of the instrument were estimated using a focus group approach and consensus model. Results: The instrument contains 34 questions in three sections: completion of nursing history and assessment, description of care process and meeting the requirements of data entry. Estimates of the validity and inter-rater reliability of the instrument gave satisfactory results. Conclusion: The QANDAC instrument has a potential as a useful audit tool for the purposes of quality improvement and research in aged care documentation.

Published
2013

42. 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

43. 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

44. 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

45. 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

46. 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

47. 'It felt like I was a black dot on white paper': examining young former refugees' experience of entering Australian high schools

Author

Uptin, Jonnell, Wright, Jan, Harwood, Valerie, Uptin, Jonnell, Wright, Jan, and Harwood, Valerie

Abstract

Schools are often the first point of contact for young refugees resettling in Australia and play a significant role in establishing meaningful connections to Australian society and a sense of belonging in Australia (Olliff in Settling in: How do refugee young people fair within Australia's settlement system? Centre for Multicultural Youth Issues, Melbourne. http://www. cmyi. net. au/ResearchandPolicy. Accessed 21 June 2010, 2007; Gifford et al. in: Good Starts for recently arrived youth with refugee backgrounds: Promoting wellbeing in the first three years of settlement in Melbourne, Australia. Melbourne: La Trobe Refugee Research Centre. http://www. latrobe. edu. au/larrc/documents-larrc/reports/report-good-starts. pdf. Accessed 4 June 2011, 2009; Sidhu and Taylor in: Educational provision for refugee youth in Australia: Left to chance? Journal of Sociology,43(3), 283-300, 2007). However, too little is known of how refugee youth encounter school in their new country. This article draws upon individual narratives of young former refugee's experiences of high schools. It explores the stories told by the young people of being identified as different and of negotiating ways of belonging in schools both academically and socially. It argues that it is how the school positions the newly arrived refugee students within mainstream school culture that opens up or restricts opportunities for inclusion in all aspects of school (in culture and pedagogy).

Published
2013

49. 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

50. 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