Electrospun nanofibers as scaffolds for skin tissue engineering D Sundaramurthi, UM Krishnan, S Sethuraman Polymer Reviews 54 (2), 348-376, 2014 | 294 | 2014 |
Development of Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) Fibers for Skin Tissue Engineering: Effects of Topography, Mechanical, and Chemical Stimuli P Kuppan, KS Vasanthan, D Sundaramurthi, UM Krishnan, S Sethuraman Biomacromolecules 12 (9), 3156-3165, 2011 | 177 | 2011 |
Key advances of carboxymethyl cellulose in tissue engineering & 3D bioprinting applications A Zennifer, P Senthilvelan, S Sethuraman, D Sundaramurthi Carbohydrate polymers 256, 117561, 2021 | 125 | 2021 |
Electrospun nanostructured chitosan–poly (vinyl alcohol) scaffolds: a biomimetic extracellular matrix as dermal substitute D Sundaramurthi, KS Vasanthan, P Kuppan, UM Krishnan, S Sethuraman Biomedical Materials 7 (4), 045005, 2012 | 118 | 2012 |
3D bioprinting technology for regenerative medicine applications D Sundaramurthi, S Rauf, C Hauser International Journal of Bioprinting 2 (2), 2016 | 90 | 2016 |
Bioinspired hybrid mesoporous silica–gelatin sandwich construct for bone tissue engineering RK Ravichandran, D Sundaramurthi, S Gandhi, S Sethuraman, ... Microporous and Mesoporous Materials 187, 53-62, 2014 | 62 | 2014 |
Hierarchical mesoporous silica nanofibers as multifunctional scaffolds for bone tissue regeneration R Ravichandran, S Gandhi, D Sundaramurthi, S Sethuraman, ... Journal of Biomaterials Science, Polymer Edition 24 (17), 1988-2005, 2013 | 57 | 2013 |
Self-assembling tetrameric peptides allow in situ 3D bioprinting under physiological conditions S Rauf, HH Susapto, K Kahin, S Alshehri, S Abdelrahman, JH Lam, ... Journal of Materials Chemistry B 9 (4), 1069-1081, 2021 | 55 | 2021 |
Current standards and ethical landscape of engineered tissues—3D bioprinting perspective MP Sekar, H Budharaju, A Zennifer, S Sethuraman, N Vermeulen, ... Journal of tissue engineering 12, 20417314211027677, 2021 | 54 | 2021 |
3D bioprinting and photocrosslinking: emerging strategies & future perspectives A Zennifer, S Manivannan, S Sethuraman, SG Kumbar, D Sundaramurthi Biomaterials advances 134, 112576, 2022 | 49 | 2022 |
Biocompatibility of poly (3-hydroxybutyrate-co3-hydroxyvalerate)(PHBV) nanofibers for skin tissue engineering D Sundaramurthi, UM Krishnan, S Sethuraman Journal of biomedical nanotechnology 9 (8), 1383-1392, 2013 | 48 | 2013 |
Epidermal Differentiation of Stem Cells on Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) Nanofibers D Sundaramurthi, UM Krishnan, S Sethuraman Annals of biomedical engineering 42, 2589-2599, 2014 | 39 | 2014 |
Ceramic materials for 3D printing of biomimetic bone scaffolds–current state–of–the–art & future perspectives H Budharaju, S Suresh, MP Sekar, B De Vega, S Sethuraman, ... Materials & Design, 112064, 2023 | 32 | 2023 |
Hyaluronic acid as bioink and hydrogel scaffolds for tissue engineering applications MP Sekar, S Suresh, A Zennifer, S Sethuraman, D Sundaramurthi ACS Biomaterials Science & Engineering 9 (6), 3134-3159, 2023 | 22 | 2023 |
Advances in electrospinning and 3D bioprinting strategies to enhance functional regeneration of skeletal muscle tissue M Thangadurai, A Ajith, H Budharaju, S Sethuraman, D Sundaramurthi Biomaterials Advances 142, 213135, 2022 | 21 | 2022 |
Designer DNA biomolecules as a defined biomaterial for 3D bioprinting applications H Budharaju, A Zennifer, S Sethuraman, A Paul, D Sundaramurthi Materials Horizons 9 (4), 1141-1166, 2022 | 21 | 2022 |
Osteogenic differentiation of stem cells on mesoporous silica nanofibers D Sundaramurthi, LR Jaidev, LN Ramana, S Sethuraman, UM Krishnan RSC Advances 5 (87), 69205-69214, 2015 | 20 | 2015 |
A biomimetic mesoporous silica–polymer composite scaffold for bone tissue engineering R Kaliaraj, S Gandhi, D Sundaramurthi, S Sethuraman, UM Krishnan Journal of Porous Materials 25, 397-406, 2018 | 18 | 2018 |
Carboxymethyl cellulose-agarose-gelatin: A thermoresponsive triad bioink composition to fabricate volumetric soft tissue constructs MP Sekar, H Budharaju, S Sethuraman, D Sundaramurthi SLAS technology 28 (3), 183-198, 2023 | 13 | 2023 |
Additive manufacturing of peripheral nerve conduits–fabrication methods, design considerations and clinical challenges A Zennifer, M Thangadurai, D Sundaramurthi, S Sethuraman SLAS technology 28 (3), 102-126, 2023 | 12 | 2023 |