麻豆传媒

Dr Naresh Sanandiya is Research associate in Advanced materials group at 麻豆传媒, and currently working on 3D printing of biopolymers.

He has carried out PhD work in CSIR-Central Salt and Marine Chemicals research institute (CSIR-CSMCRI, India) and awarded PhD degree in Chemistry from affiliated M K Bhavnagar University (2014). He joined Pohang university of Science and Technology (POSTECH, South Korea) for postdoctoral research (2014-2016) where he worked on development of biomimetic advanced materials for biomedical and environmental applications. Later, he moved to Singapore University of Technology and Design (SUTD, Singapore) as postdoc (2016-2021) where he worked on large scale additive manufacturing, and circular manufacturing of natural composites.

Research experience:

• Materials: Cellulose, Chitosan, Chitin, Synthetic & Silicone polymers, Silk fibroin, Gallic acid, lignocellulose, Alginate, Agarose, Gelatine, inorganic nanoparticles, conductive polymers

• 3D printing: 3D printing of hydrogels, 3D bioprinting, Large-scale additive manufacturing, Embedded 3D printing

• Biomaterial development: Chemical modification of biopolymers for tissue regeneration, cell delivery system, tissue adhesives, hemostasis mats, guided bone regeneration, dentinal hypersensitive cure system, stimuli-responsive hydrogels, Fluorogenic hydrogels

• Environmental applications: Sustainable biocomposites, Circular manufacturing, toxic metal removal, moisture-responsive actuators

Research Interest:

• Multimaterial 3D printing, 3D printing of soft elastomers, Fabrication of soft robotics components, Wearable sensors, Sustainable composites, Biomaterials

Selected publications:

• Sanandiya, Naresh D, Christoph Ottenheim, et al. (2020). “Circular manufacturing of chitinous bio-composites via bioconversion of urban refuse”. .
• Sanandiya, Naresh D., Suyoung Lee, et al. (2019). “Tunichrome-inspired pyrogallol functionalized chitosan for tissue adhesion and hemostasis”. .
• Sanandiya, Naresh D, Jyothsna Vasudevan, et al. (2019). “Stimuli-responsive injectable cellulose thixogel for cell encapsulation”..
• Sanandiya, Naresh D., Yadunund Vijay, et al. (2018). “Large-scale additive manufacturing with bioinspired cellulosic materials”. .
• Prajatelistia, Ekavianty, Naresh D Sanandiya, et al. (2020). “Biomimetic Janus chitin nanofiber membrane for potential guided bone regeneration application”. .
• Ju, Sung-Won et al. (2017). “Aesthetically improved and efficient tannin–metal chelates for the treatment of dentinal hypersensitivity”. .
• Sanandiya, Naresh D, Chandrakant Mukesh, et al. (2017). “Evaluation of cellulose of Valoniopsis pachynema (Martens) Børgesen for its applications in paper making”. .
• Sanandiya, Naresh D. and A. K. Siddhanta (2016). “Cellulose-based spreadable new thixo gels: synthesis and their characterization”. .
• Sanandiya, Naresh D. and Arup K. Siddhanta (2014). “Chemical studies on the polysaccharides of Salicornia brachiata”. .
• Sanandiya, Naresh D. and A.K. Siddhanta (2013). “Facile synthesis of a new fluorogenic metal scavenging interpolymeric diamide based on cellulose and alginic acids”. .
• Sanandiya, Naresh D, Kamalesh Prasad, et al. (2010). “Cellulose of Salicornia brachiata”. .
• Théo Calais, Naresh D Sanandiya, et al. (2021) Freeform liquid 3D printing of soft functional components for soft robotics. .
• Dwivedi, Amarendra Dhar et al. (2016). “Tuning and Characterizing Nanocellulose Interface for Enhanced Removal of Dual-Sorbate (AsV and CrVI) from Water Matrices”. .
• Jayashankar D.K., Gupta S.S., Sanandiya N.D. et al.(2020) Fiber reinforced composite manufacturing for passive actuators. .
• Prajatelistia, Ekavianty, Sung-Won Ju, et al. (2016). “Tunicate-Inspired Gallic Acid/ Metal Ion Complex for Instant and Efficient Treatment of Dentin Hypersensitivity”. .
• Vijay Y, Dritsas S, Sanadiya ND, Fernandez JG. Control of Process Settings for Large-Scale Additive Manufacturing with Sustainable natural Composites(2018). ,

Patents:

• Ramavatar Meena Naresh Sanandiya et al., (2020) Seaweed polysaccharide based superhydrophilic foam membrane for energy-efficient oil-water separation. US patent

Selected media coverage: