Jennifer M. Pringle
Jennifer M. Pringle
Zweryfikowany adres z deakin.edu.au
Cytowane przez
Cytowane przez
Energy applications of ionic liquids
DR MacFarlane, N Tachikawa, M Forsyth, JM Pringle, PC Howlett, ...
Energy & Environmental Science 7 (1), 232-250, 2014
Degradation observations of encapsulated planar CH 3 NH 3 PbI 3 perovskite solar cells at high temperatures and humidity
Y Han, S Meyer, Y Dkhissi, K Weber, JM Pringle, U Bach, L Spiccia, ...
Journal of Materials Chemistry A 3 (15), 8139-8147, 2015
Ionic liquids in electrochemical devices and processes: managing interfacial electrochemistry
DR MacFarlane, M Forsyth, PC Howlett, JM Pringle, J Sun, G Annat, ...
Accounts of chemical research 40 (11), 1165-1173, 2007
Ionic liquids—an overview
SA Forsyth, JM Pringle, DR MacFarlane
Australian Journal of Chemistry 57 (2), 113-119, 2004
Ionic liquids and their solid-state analogues as materials for energy generation and storage
DR MacFarlane, M Forsyth, PC Howlett, M Kar, S Passerini, JM Pringle, ...
Nature Reviews Materials 1 (2), 1-15, 2016
Ionic liquids for energy, materials, and medicine
M Smiglak, JM Pringle, X Lu, L Han, S Zhang, H Gao, DR Macfarlane, ...
Chemical Communications 50 (66), 9228-9250, 2014
Extraction of lignin from lignocellulose at atmospheric pressure using alkylbenzenesulfonate ionic liquid
SSY Tan, DR MacFarlane, J Upfal, LA Edye, WOS Doherty, AF Patti, ...
Green Chemistry 11 (3), 339-345, 2009
Thermal degradation of ionic liquids at elevated temperatures
KJ Baranyai, GB Deacon, DR MacFarlane, JM Pringle, JL Scott
Australian journal of chemistry 57 (2), 145-147, 2004
Lewis base ionic liquids
DR MacFarlane, JM Pringle, KM Johansson, SA Forsyth, M Forsyth
Chemical communications, 1905-1917, 2006
The zwitterion effect in high-conductivity polyelectrolyte materials
C Tiyapiboonchaiya, JM Pringle, J Sun, N Byrne, PC Howlett, ...
Nature materials 3 (1), 29-32, 2004
High Seebeck coefficient redox ionic liquid electrolytes for thermal energy harvesting
TJ Abraham, DR MacFarlane, JM Pringle
Energy & Environmental Science 6 (9), 2639-2645, 2013
Organic ionic plastic crystals: recent advances
JM Pringle, PC Howlett, DR MacFarlane, M Forsyth
Journal of Materials Chemistry 20 (11), 2056-2062, 2010
Thermo-electrochemical cells for waste heat harvesting–progress and perspectives
MF Dupont, DR MacFarlane, JM Pringle
Chemical communications 53 (47), 6288-6302, 2017
Electrochemical synthesis of polypyrrole in ionic liquids
JM Pringle, J Efthimiadis, PC Howlett, J Efthimiadis, DR MacFarlane, ...
Polymer 45 (5), 1447-1453, 2004
Fundamentals of ionic liquids: from chemistry to applications
DR MacFarlane, M Kar, JM Pringle
John Wiley & Sons, 2017
High power density electrochemical thermocells for inexpensively harvesting low-grade thermal energy.
L Zhang, T Kim, N Li, TJ Kang, J Chen, J Pringle, M Zhang, AH Kazim, ...
Deakin University, 2017
Recent progress in the development and use of organic ionic plastic crystal electrolytes
JM Pringle
Physical Chemistry Chemical Physics 15 (5), 1339-1351, 2013
The effect of anion fluorination in ionic liquids—physical properties of a range of bis (methanesulfonyl) amide salts
JM Pringle, J Golding, K Baranyai, CM Forsyth, GB Deacon, JL Scott, ...
New journal of chemistry 27 (10), 1504-1510, 2003
Seebeck coefficients in ionic liquids–prospects for thermo-electrochemical cells
TJ Abraham, DR MacFarlane, JM Pringle
Chemical communications 47 (22), 6260-6262, 2011
Toward high‐energy‐density lithium metal batteries: opportunities and challenges for solid organic electrolytes
X Wang, R Kerr, F Chen, N Goujon, JM Pringle, D Mecerreyes, M Forsyth, ...
Advanced Materials 32 (18), 1905219, 2020
Nie można teraz wykonać tej operacji. Spróbuj ponownie później.
Prace 1–20