Register      Login
Australian Journal of Chemistry Australian Journal of Chemistry Society
An international journal for chemical science
Australian Journal of Chemistry

Australian Journal of Chemistry

Volume 71 Number 10 2018

RACI and AAS Awards 2017–18

Graphical Abstract Image

Ruthenium alkynyl complexes are highly efficient NLO-active molecules; dipolar examples exhibit record values of quadratic optical non-linearity, and specific octupolar ruthenium alkynyl stars and dendrimers show record values of cubic optical non-linearity and multiphoton absorption cross-sections. Protonation–deprotonation, oxidation–reduction, and photoisomerization stimuli have been employed at certain ruthenium alkynyl complexes to demonstrate NLO switching across a record number of states.

CH18271Overcoming the Challenges of Hydrogenation in Silicon Solar Cells

Brett J. Hallam, Alison M. Ciesla, Catherine C. Chan, Anastasia Soeriyadi, Shaoyang Liu, Arman Mahboubi Soufiani, Matthew Wright and Stuart Wenham
pp. 743-752
Graphical Abstract Image

This paper discusses the challenges of passivating a range of defects in silicon solar cells using atomic hydrogen. It highlights the limited effectiveness of the conventional hydrogenation processes achieved using fast-firing, and the improved passivation that can be achieved for light-induced defects by using illuminated annealing to control hydrogen charge states.

CH18283Natural Products Isolated from Endemic Tasmanian Vascular Plants

Bianca J. Deans, Miguel de Salas, Jason A. Smith and Alex C. Bissember 0000-0001-5515-2878
pp. 756-767
Graphical Abstract Image

Although there are 530 known endemic Tasmanian vascular plants, natural products isolation studies have been performed on only 27 of these species (~5.1 %). This report provides the first review of the natural products isolated from endemic Tasmanian plant species and covers ~70 years of research in this area.

CH18219Polyion Complex Micelles for Protein Delivery

Fan Chen and Martina H. Stenzel
pp. 768-780
Graphical Abstract Image

Mixing block copolymers and proteins is an easy way to encapsulate the charged payload in nanoparticles. The resulting polyion complex micelles – PIC micelles – are stable in aqueous solution while the protein is protected against degradation. This approach can be used to deliver therapeutic proteins, and also to stabilise enzymes.

CH18328Progress Towards Direct Hydrogen Peroxide Fuel Cells (DHPFCs) as an Energy Storage Concept

Ciaran J. McDonnell-Worth 0000-0002-6359-3806 and Douglas R. MacFarlane
pp. 781-788
Graphical Abstract Image

Direct H2O2 fuel cell (DHPFCs) utilise electrochemically generated H2O2 and are well suited for renewable energy storage and transportation. Given that H2O2 acts as both the fuel and the oxidant in these systems, DHPFCs can be designed to be membraneless and fully reversible, giving them several advantages over other ‘clean-energy’ fuel cells. This review examines the recent research into electrochemical H2O2 generation and its use in DHPFCs.

CH18251Flexible Analogues of Azaindole DYRK1A Inhibitors Elicit Cytotoxicity in Glioblastoma Cells

Qingqing Zhou, Tristan A. Reekie, Ramzi H. Abbassi, Dinesh Indurthi Venkata, Josep S. Font, Renae M. Ryan, Louis M. Rendina, Lenka Munoz and Michael Kassiou
pp. 789-797
Graphical Abstract Image

Deconstruction of a DYRK1A lead molecule leads to ring-opened analogues that do not show activity towards DYRK1A. However, they still reduce viability of glioblastoma cells through other mechanistic pathways.

CH18243Chromolactol, an Oxygenated Diterpene from the Indo-Pacific Nudibranch Goniobranchus coi: Spectroscopic and Computational Studies

Ariyanti S. Dewi, Gregory K. Pierens, Karen L. Cheney, Joanne T. Blanchfield and Mary J. Garson
pp. 798-803
Graphical Abstract Image

The structure of a rearranged spongian diterpene chromolactol from the Indo-Pacific nudibranch Goniobranchus coi has been investigated by NMR experiments informed by molecular modelling studies and density functional calculations. A biosynthetic pathway leading to the preferred diastereomer of chromolactol (1a) is presented.

Graphical Abstract Image

The potential energy surface (PES) for the beryllium dimer has long been considered one of the most challenging problems in quantum chemistry. This work determines an accurate PES for the beryllium dimer and uses this reference data to evaluate the performance of approximate density functional theory and coupled cluster methods for this challenging PES.

CH18266Microfluidic Radiosynthesis of the Muscarinic M2 Imaging Agent [18F]FP-TZTP

Lidia Matesic, Ivan Greguric and Giancarlo Pascali
pp. 811-817
Graphical Abstract Image

The fluorine-18 radiolabelling optimisation of the selective muscarinic M2 imaging agent [18F]FP-TZTP was performed using continuous-flow microfluidics. When scaled up to production-level quantities, [18F]FP-TZTP could be produced using decreased amounts of reagents in good radiochemical yield and molar activity.

Graphical Abstract Image

The electrochemical reduction mechanism of 2,4-dinitrotoluene (DNT) in ionic liquids is studied. Stepwise reduction of the two nitro groups gave rise to two distinctive peaks. The first peak becomes chemically irreversible at increasing concentration, and digital simulation suggests that the follow-up chemical steps involve dimerisation of the radical anion, and/or abstraction of a proton from another DNT molecule.

CH18281Improved Fenton Therapy Using Cancer Cell Hydrogen Peroxide

Hadi Ranji-Burachaloo 0000-0002-2562-8991, Qiang Fu 0000-0002-4012-330X, Paul A. Gurr 0000-0001-5246-9845, Dave E. Dunstan 0000-0002-9931-010X and Greg G. Qiao 0000-0003-2771-9675
pp. 826-836
Graphical Abstract Image

In this study, a PEGylated iron MOF nanoparticle as a new and effective agent for Fenton cancer therapy method is reported. This stable nanoparticle, which can destroy cancer cells using the cells’ H2O2 does not have the issues such as low stability, high aggregation, and poor selectivity that have been reported for similar nanoparticles.

Committee on Publication Ethics

Call for Papers

We are seeking contributions for Special Issues. Explore more information on calls for papers.

10th Heron Island Conference

Join us in July 2025. More

Advertisement