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Brett Leslie Pollard
Brett Leslie Pollard
其他姓名Brett Pollard
在 anu.edu.au 的电子邮件经过验证
标题
引用次数
引用次数
年份
Exploiting nature's most abundant polymers: Developing new pathways for the conversion of cellulose, hemicellulose, lignin and chitin into platform molecules (and beyond)
MG Banwell, B Pollard, X Liu, LA Connal
Chemistry–An Asian Journal 16 (6), 604-620, 2021
302021
Conductive and Self-Healing Carbon Nanotube–Polymer Composites for Mechanically Strong Smart Materials
P Shen, Z Jiang, J Viktorova, B Pollard, A Kumar, Z Stachurski, LA Connal
ACS Applied Nano Materials 6 (2), 986-994, 2023
112023
Simple and modestly scalable synthesis of iso-Cyrene from levoglucosenone and its comparison to the bio-derived and polar aprotic solvent Cyrene®
X Liu, B Pollard, MG Banwell, LJ Yu, ML Coote, MG Gardiner, ...
Australian Journal of Chemistry 75 (5), 331-344, 2022
32022
Polymers from Cellulosic Waste: Direct Polymerization of Levoglucosenone using DBU as a Catalyst
B Pollard, MG Gardiner, MG Banwell, LA Connal
ChemSusChem 17 (7), e202301165, 2024
12024
Rational design of water-harvesting hydrogels
MK Thanusing, P Shen, BL Pollard, LA Connal
Molecular Systems Design & Engineering 9 (1), 63-72, 2024
12024
The synthesis and manipulation of certain Diels–Alder adducts of levoglucosenone and iso-levoglucosenone
B Pollard, X Liu, LA Connal, MG Banwell, MG Gardiner
Australian Journal of Chemistry 76 (11), 797-811, 2023
12023
Simple and Modestly Scalable Synthesis of iso-Cyrene from Levoglucosenone and Its Comparison to the Bio-Based and Polar Aprotic Solvent Cyrene®
X Liu, B Pollard, MG Banwell, LJ Yu, ML Coote, MG Gardiner, ...
Valorisation of Biomass-Derived Platform Molecules 75 (5), 61, 2023
2023
Polymers From Cellulosic Waste
B Pollard, MG Banwell, LA Connal
Valorisation of Biomass-Derived Platform Molecules, 230, 2023
2023
Valorisation of Biomass-Derived Platform Molecules
BL Pollard
2023
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