C
Chandramouli Subramaniam
Researcher at Indian Institute of Technology Bombay
Publications - 63
Citations - 1795
Chandramouli Subramaniam is an academic researcher from Indian Institute of Technology Bombay. The author has contributed to research in topics: Carbon nanotube & Nanoparticle. The author has an hindex of 15, co-authored 56 publications receiving 1304 citations. Previous affiliations of Chandramouli Subramaniam include Indian Institutes of Technology & National Institute of Advanced Industrial Science and Technology.
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One hundred fold increase in current carrying capacity in a carbon nanotube–copper composite
Chandramouli Subramaniam,Takeo Yamada,Kazufumi Kobashi,Atsuko Sekiguchi,Don N. Futaba,Motoo Yumura,Kenji Hata +6 more
TL;DR: Carbon nanotube–copper composite is reported, the only material with both high conductivity and high ampacity, making it uniquely suited for applications in microscale electronics and inverters.
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Growth of gold nanoparticles in human cells.
Anshup,J. Sai Venkataraman,Chandramouli Subramaniam,Rajneesh Kumar,Suma Priya,T. R. Santhosh Kumar,R.V. Omkumar,and Annie John,Thalappil Pradeep +8 more
TL;DR: Differences in the cellular metabolism of cancer and noncancer cells were manifested, presumably in their ability to carry out the reduction process.
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Carbon nanotube-copper exhibiting metal-like thermal conductivity and silicon-like thermal expansion for efficient cooling of electronics
Chandramouli Subramaniam,Yuzuri Yasuda,Satoshi Takeya,Seisuke Ata,Ayumi Nishizawa,Don N. Futaba,Takeo Yamada,Kenji Hata +7 more
TL;DR: A carbon nanotube-copper (CNT-Cu) composite with high metallic thermal conductivity and a low, silicon-like CTE, which presents a viable and efficient alternative to existing materials for thermal management in electronics.
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On the formation of protected gold nanoparticles from AuCl 4 − by the reduction using aromatic amines
TL;DR: Amines are used extensively as reductants and subsequent capping agents in the synthesis of metal nanoparticles, especially gold, due to its affinity to nitrogen as discussed by the authors, and it is found that the oxidative polymerization of the amine goes in step with the formation of gold nanoparticles.
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Nano-scale, planar and multi-tiered current pathways from a carbon nanotube–copper composite with high conductivity, ampacity and stability
TL;DR: The approach involved the use of a two-stage electrodeposition of copper into a pre-patterned template of porous, thin CNT sheets acting as the electrode, enabling the realization of completely suspended multi-tier, dielectric-less 'air-gap' CNT-Cu circuits that could be electrically isolated from each other and are challenging to fabricate with pure Cu or any metal.