Browse by Journals
Number of items: 11.
FORTULAN, Raphael and YAMINI, Sima Aminorroaya
(2021).
Recent Progress in Multiphase Thermoelectric Materials.
Materials, 14 (20).
[Article]
LIAO, Jinfa, WANG, Hang and CHEN, Tzu-Yu
(2018).
Experimental investigation and thermodynamic calculation of Ni–Al–La ternary system in nickel-rich region: A new intermetallic compound Ni2AlLa.
Materials, 11 (12), p. 2396.
[Article]
LUO, Quanshun and KITCHEN, Matthew
(2023).
Microhardness, Indentation Size Effect and Real Hardness of Plastically Deformed Austenitic Hadfield Steel.
Materials, 16 (3): 1117.
[Article]
MILLS, Douglas, LAMBERT, Paul and YANG, Shengming
(2021).
Electrochemical Noise Measurement to Assess Corrosion of Steel Reinforcement in Concrete.
Materials, 14 (18).
[Article]
REICHMANN, Klaus, FETEIRA, Antonio and LI, Ming
(2015).
Bismuth Sodium Titanate Based Materials for Piezoelectric Actuators.
Materials, 8 (12), 8467-8495.
[Article]
SALAM, Nasseem, TOUMPANIARI, Sotiria, GENTILE, Piergiorgio, MARINA FERREIRA, Ana, DALGARNO, Kenneth and PARTRIDGE, Simon
(2018).
Assessment of Migration of Human MSCs through Fibrin Hydrogels as a Tool for Formulation Optimisation.
Materials, 11 (9), p. 1781.
[Article]
SAMAD, Sabrin A, ARAFAT, Abul, LESTER, Edward and AHMED, Ifty
(2022).
Upcycling Glass Waste into Porous Microspheres for Wastewater Treatment Applications: Efficacy of Dye Removal.
Materials, 15 (17): 5809.
[Article]
SCRIMSHIRE, Alex, BACKHOUSE, Daniel, DENG, Wei, MANN, Colleen, OGDEN, Mark D, SHARRAD, Clint A, HARRISON, Mike T, MCKENDRICK, Donna and BINGHAM, Paul A
(2024).
Benchtop Zone Refinement of Simulated Future Spent Nuclear Fuel Pyroprocessing Waste.
Materials, 17 (8): 1781.
[Article]
WANG, Dawei, ZHANG, Shiyu, ZHOU, Di, SONG, Kaixin, FETEIRA, Antonio, VARDAXOGLOU, Yiannis, WHITTOW, Will, CADMAN, Darren and REANEY, Ian M.
(2019).
Temperature Stable Cold Sintered (Bi0.95Li0.05)(V0.9Mo0.1)O4-Na2Mo2O7 Microwave Dielectric Composites.
Materials, 12 (9).
[Article]
WU, Yu-You, QUE, Longxin, CUI, Zhaoyang and LAMBERT, Paul
(2019).
Physical properties of concrete containing graphene oxide nanosheets.
Materials, 12 (10), e1707.
[Article]
WU, Yu-You, ZHANG, Jing, LIU, Changjiang, ZHENG, Zhoulian and LAMBERT, Paul
(2020).
Effect of Graphene Oxide Nanosheets on Physical Properties of Ultra-High-Performance Concrete with High Volume Supplementary Cementitious Materials.
Materials, 13 (8), e1929.
[Article]