Items where Author is "Sarkar, C"

Up a level
Export as [feed] RSS 2.0 [feed] RSS 1.0 [feed] Atom
Group by: Item Type | No Grouping
Jump to: Article
Number of items: 7.

Article

Sarkar, C and Anuvrat, K and Garai, S and Sahu, Sumant Kumar and Chakraborty, J (2020) One pot method to synthesize three-dimensional porous hydroxyapatite nanocomposite for bone tissue engineering. Journal of Porous Materials, 27(1) (IF-2.183). pp. 225-235.

Sarkar, C and Sinha, Arvind (2020) Synthesis of fully interconnected multiporous hydroxyapatite block for orthopedic application. Journal of Metallurgy and Materials Science, 62(3-4) . pp. 21-29.

Sarkar, C and Chowdhuri, A R and Garai, S and Chakraborty, J and Sahu, Sumant Kumar (2019) Three-dimensional cellulose-hydroxyapatite nanocomposite enriched with dexamethasone loaded metal-organic framework: a local drug delivery system for bone tissue engineering. Cellulose, 26(12) (IF-4.210). pp. 7253-7269.

Sarkar, C and Sahu, Sumant Kumar and Sinha, Arvind and Chakraborty, J and Garai, Subhadra (2019) Facile synthesis of carbon fiber reinforced polymer-hydroxyapatite ternary composite: A mechanically strong bioactive bone graft. Materials Science and Engineering: C , 97 . pp. 388-396.

Sarkar, C and RayChowdhuri, Angshuman and Kumar, Amit and Laha, Dipranjan and Garai, Subhadra and Chakraborty, Jui and Sahu, Sumant Kumar (2018) One pot synthesis of carbon dots decorated carboxymethyl cellulose- hydroxyapatite nanocomposite for drug delivery, tissue engineering and Fe3+ ion sensing. Carbohydrate Polymers, 181 (IF- 4.81). pp. 710-718.

Sarkar, C and Kumari, P and Anuvrat, K and Sahu, Sumant Kumar and Chakraborty, J and Garai, S (2018) Synthesis and characterization of mechanically strong carboxymethyl cellulose-gelatin-hydroxyapatite nanocomposite for load-bearing orthopedic application. Journal Of Materials Science, 53/1 (IF- 2.599). pp. 230-246.

Sarkar, C and kumari, Pushpa and Anuvrat, K and Sahu, Sumant Kumar and Chakraborty, Jui and Garai, Subhadra (2017) Synthesis and characterization of mechanically strong carboxymethyl cellulose–gelatin–hydroxyapatite nanocomposite for load-bearing orthopedic application. Journal of Materials Science, 53(1) (IF- 2.599). pp. 230-246.

This list was generated on Wed Oct 5 17:20:36 2022 IST.