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Rajyashree Sundaram
Rajyashree Sundaram
Principal Engineer, Huawei Nuremberg Research Center
Verified email at huawei.com - Homepage
Title
Cited by
Cited by
Year
Continuous direct spinning of fibers of single‐walled carbon nanotubes with metallic chirality
RM Sundaram, KKK Koziol, AH Windle
Advanced Materials 23 (43), 5064-5068, 2011
1872011
Enhancement of the mechanical properties of directly spun CNT fibers by chemical treatment
S Boncel, RM Sundaram, AH Windle, KKK Koziol
ACS nano 5 (12), 9339-9344, 2011
1732011
Copper/carbon nanotube composites: research trends and outlook
RM Sundaram, A Sekiguchi, M Sekiya, T Yamada, K Hata
Royal Society Open Science 5 (11), 180814, 2018
1302018
Electrical performance of lightweight CNT-Cu composite wires impacted by surface and internal Cu spatial distribution
R Sundaram, T Yamada, K Hata, A Sekiguchi
Scientific reports 7 (1), 9267, 2017
872017
One-step purification of direct-spun CNT fibers by post-production sonication
RM Sundaram, AH Windle
Materials & Design 126, 85-90, 2017
422017
The influence of Cu electrodeposition parameters on fabricating structurally uniform CNT-Cu composite wires
R Sundaram, T Yamada, K Hata, A Sekiguchi
Materials Today Communications 13, 119-125, 2017
302017
The importance of carbon nanotube wire density, structural uniformity, and purity for fabricating homogeneous carbon nanotube–copper wire composites by copper electrodeposition
R Sundaram, T Yamada, K Hata, A Sekiguchi
Japanese Journal of Applied Physics 57 (4S), 04FP08, 2018
192018
Thermal expansion of Cu/carbon nanotube composite wires and the effect of Cu-spatial distribution
R Sundaram, T Yamada, K Hata, A Sekiguchi
Journal of Materials Research and Technology 9 (3), 6944-6949, 2020
172020
Effect of carbon precursors on the structure and properties of continuously spun carbon nanotube fibers
RM Sundaram, AH Windle
Science of Advanced Materials 7 (4), 643-653, 2015
142015
Through-Silicon-Via Interposers with Cu-Level Electrical Conductivity and Si-Level Thermal Expansion Based on Carbon Nanotube-Cu Composites for Microelectronic Packaging …
G Chen, R Sundaram, A Sekiguchi, K Hata, DN Futaba
ACS Applied Nano Materials 4 (1), 869-876, 2020
132020
Surface modification of directly spun carbon nanotube films
D Janas, R Sundaram, KKK Koziol
Materials Letters 79, 32-34, 2012
132012
Carbon materials comprising carbon nanotubes and methods of making carbon nanotubes
R Sundaram, KK Koziol, AE Lekawa-Raus, A Windle
US Patent 9,969,619, 2018
112018
Purifying carbon nanotube wires by vacuum annealing
R Sundaram, T Yamada, K Hata, A Sekiguchi
Materials Today: Proceedings 5 (13), 27316-27326, 2018
102018
Improving carbon nanotube/copper film composite electrical performances by tailoring oxygen interface through gaseous ozone treatment of carbon nanotube films
RM Sundaram, A Sekiguchi, T Yamada, K Kokubo, K Hata
Synthetic Metals 288, 117103, 2022
52022
Mechanically Robust Free-Standing Single-Walled Carbon Nanotube Thin Films with Uniform Mesh-Structure by Blade Coating
Y Kato, A Sekiguchi, K Kobashi, R Sundaram, T Yamada, K Hata
Frontiers in Materials 7, 306, 2020
52020
Production, characterisation and properties of carbon nanotube fibres
RM Sundaram
University of Cambridge, 2012
52012
Copper/carbon nanotube composites: research trends and outlook, R. Soc. Open Sci. 5 (2018) 180814
RM Sundaram, A Sekiguchi, M Sekiya, T Yamada, K Hata
4
Commercial Wet-Spun Singlewall and Dry-Spun Multiwall Carbon Nanotube Fiber Surface O-Functionalization by Ozone Treatment.
RM Sundaram, T Yamada, K Kokubo, K Hata, A Sekiguchi
Journal of Nanoscience and Nanotechnology 21 (12), 6151-6159, 2021
22021
Influence of Carbon Nanotube Attributes on Carbon Nanotube/Cu Composite Electrical Performances
R Sundaram, A Sekiguchi, G Chen, D Futaba, T Yamada, K Kokubo, ...
C 7 (4), 78, 2021
12021
Carbon Materials Comprising Carbon Nanotubes and Methods of Making Carbon Nanotubes
R Sundaram, KK Koziol, AE Lekawa-Raus, A Windle
US Patent App. 15/958,375, 2018
12018
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