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Martin Dahlqvist
Martin Dahlqvist
Materials Design Division, Department of Physics, Chemistry, and Biology (IFM
Verified email at liu.se - Homepage
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Cited by
Cited by
Year
Two-dimensional Mo1.33C MXene with divacancy ordering prepared from parent 3D laminate with in-plane chemical ordering
Q Tao, M Dahlqvist, J Lu, S Kota, R Meshkian, J Halim, J Palisaitis, ...
Nature communications 8 (1), 14949, 2017
5102017
Stability trends of M A X phases from first principles
M Dahlqvist, B Alling, J RosÚn
Physical Review B 81 (22), 220102, 2010
2252010
W‐Based Atomic Laminates and Their 2D Derivative W1.33C MXene with Vacancy Ordering
R Meshkian, M Dahlqvist, J Lu, B Wickman, J Halim, J Th÷rnberg, Q Tao, ...
Advanced Materials 30 (21), 1706409, 2018
2162018
Experimental and theoretical characterization of ordered MAX phases Mo2TiAlC2 and Mo2Ti2AlC3
B Anasori, M Dahlqvist, J Halim, EJ Moon, J Lu, BC Hosler, EN Caspi, ...
Journal of Applied Physics 118 (9), 094304, 2015
2122015
Theoretical stability and materials synthesis of a chemically ordered MAX phase, Mo2ScAlC2, and its two-dimensional derivate Mo2ScC2 MXene
R Meshkian, Q Tao, M Dahlqvist, J Lu, L Hultman, J Rosen
Acta Materialia 125, 476-480, 2017
1582017
Magnetic self-organized atomic laminate from first principles and thin film synthesis
AS Ingason, A Mockute, M Dahlqvist, F Magnus, S Olafsson, UB Arnalds, ...
Physical review letters 110 (19), 195502, 2013
1542013
Synthesis of Ti3AuC2, Ti3Au2C2 and Ti3IrC2 by noble metal substitution reaction in Ti3SiC2 for high-temperature-stable Ohmic contacts to SiC
H Fashandi, M Dahlqvist, J Lu, J Palisaitis, SI Simak, IA Abrikosov, ...
Nature materials 16 (8), 814-818, 2017
1522017
Prediction and synthesis of a family of atomic laminate phases with KagomÚ-like and in-plane chemical ordering
M Dahlqvist, J Lu, R Meshkian, Q Tao, L Hultman, J Rosen
Science advances 3 (7), e1700642, 2017
1472017
A Nanolaminated Magnetic Phase: Mn2GaC
AS Ingason, A Petruhins, M Dahlqvist, F Magnus, A Mockute, B Alling, ...
Materials Research Letters 2 (2), 89-93, 2014
1372014
Magnetic MAX phases from theory and experiments; a review
AS Ingason, M Dahlqvist, J RosÚn
Journal of Physics: Condensed Matter 28 (43), 433003, 2016
1222016
Phase stability of Ti2AlC upon oxygen incorporation: A first-principles investigation
M Dahlqvist, B Alling, IA Abrikosov, J RosÚn
Physical Review B 81 (2), 024111, 2010
1182010
Synthesis and ab initio calculations of nanolaminated (Cr,Mn)2AlC compounds
A Mockute, M Dahlqvist, J Emmerlich, L Hultman, JM Schneider, ...
Physical Review B 87 (9), 094113, 2013
1102013
Atomically Layered and Ordered Rare-Earth i-MAX Phases: A New Class of Magnetic Quaternary Compounds
Q Tao, J Lu, M Dahlqvist, A Mockute, S Calder, A Petruhins, R Meshkian, ...
Chemistry of Materials 31 (7), 2476-2485, 2019
912019
Discovery of the Ternary Nanolaminated Compound Nb2GeC by a Systematic Theoretical-Experimental Approach
P Eklund, M Dahlqvist, O Tengstrand, L Hultman, J Lu, N Nedfors, ...
Physical Review Letters 109 (3), 035502, 2012
842012
Magnetic nanoscale laminates with tunable exchange coupling from first principles
M Dahlqvist, B Alling, IA Abrikosov, J RosÚn
Physical Review B 84 (22), 220403, 2011
832011
Structural and chemical determination of the new nanolaminated carbide Mo2Ga2C from first principles and materials analysis
CC Lai, R Meshkian, M Dahlqvist, J Lu, L┼ Nńslund, O Rivin, EN Caspi, ...
Acta Materialia 99, 157-164, 2015
772015
Origin of Chemically Ordered Atomic Laminates (i-MAX): Expanding the Elemental Space by a Theoretical/Experimental Approach
M Dahlqvist, A Petruhins, J Lu, L Hultman, J Rosen
ACS nano 12 (8), 7761-7770, 2018
752018
Order and disorder in quaternary atomic laminates from first-principles calculations
M Dahlqvist, J Rosen
Physical Chemistry Chemical Physics 17 (47), 31810-31821, 2015
722015
Boridene: Two-dimensional Mo4/3B2-x with ordered metal vacancies obtained by chemical exfoliation
J Zhou, J Palisaitis, J Halim, M Dahlqvist, Q Tao, I Persson, L Hultman, ...
Science 373 (6556), 801-805, 2021
702021
Ti 2 Au 2 C and Ti 3 Au 2 C 2 formed by solid state reaction of gold with Ti 2 AlC and Ti 3 AlC 2
H Fashandi, CC Lai, M Dahlqvist, J Lu, J RosÚn, L Hultman, G Greczynski, ...
Chemical Communications 53 (69), 9554-9557, 2017
612017
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