*Chip in Synapse Image Credit: Biswajit Sarkar with images from stock.adobe.com by SciePro & Edelweiss

Research positions available at NCB for grad students and postdocs. More details can be found here.

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Deblina Sarkar

Assistant Professor at MIT
AT&T Career Development Chair Professor at MIT Media Arts and Sciences
Founder and Director of Nano-Cybernetic Biotrek research lab

Bio

Prof. Deblina Sarkar is a trans-disciplinary innovator, initially trained in electrical engineering and physics and then, has traversed the realm of biology, driven by curiosity and belief that truly disruptive technologies can immerge at the interface of diverse research arenas. Her inventions include, among others, a 6-atom thick channel quantum-mechanical transistor overcoming fundamental power limitations, an ultra-sensitive label-free biosensor, technology revealing previously invisible biological nanostructures of brain and the first ultra-miniaturized antenna that operates inside a living cell in 3D environment. Her PhD dissertation was honored as one of the top 3 dissertations throughout USA and Canada in the field of Mathematics, Physical sciences and all departments of Engineering. She is the recipient of numerous other awards and recognitions, including the Lancaster Award for best PhD dissertation at UCSB, Technology Review’s Innovators Under 35 from India, NIH K99/R00 Pathway to Independence Award, the IEEE Early Career Award in Nanotechnology (only awardee worldwide in 2022), Innovative Early Career Engineer by National Academy of Engineering, the NIH Director’s New Innovator Award with the highest and rarely achieved impact score, the MIND Prize, the Science News' 10 Scientists to Watch, the Distinguished Scientist Award (one of the 3 awardees nationwide), the Nanomaterials Young Investigator Award (one of the 3 awardees worldwide), NSF CAREER Award, The ChadTough Defeat DIPG New Investigator Award (one of 4 awardees nationwide) and many more Continue Reading....

Vision

Nano-Cybernetic Biotrek (NCB) is an adventurous scientific voyage, fusing engineering, applied physics, and biology with two main research thrusts:

To develop disruptive technologies for ultra-low power nanoelectronic devices as energy efficient hardware for Artificial Intelligence and,
To merge such next generation technologies with living-matter to create new paradigm for human-machine symbiosis in order to transform health-care.

The versatility of electronics is that they are inherently very fast and can be built from scratch according to an engineer’s dream to perform functions, which are beyond the capabilities of biology. While our immediate aims, are to build unique nanoelectronics-bio hybrids, which will create unprecedented possibilities for probing/sensing and modulating (for therapeutics) our brain and body, NCB's long-term goal is to achieve seamless integration of nanoelectronics into our biological systems to incorporate functionalities, not otherwise enabled by biology, and thus, transcending us beyond our biological limitations.

D. Sarkar, "Nano-Cybernetic Biotrek overview", MIT Media Lab Members' Week, October (2023)

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D. Sarkar, "Transcending humans beyond diseases and biological limitations", MIT Future Worlds Workshop, October (2023)

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D. Sarkar, "Curing the Incurable: Radical Therapeutics for Neurodegenerative Diseases to Refractory Cancer", MIT Future Therapeutics Workshop, (2023)

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D. Sarkar, “Women's Health: Novel Treatment for Alzheimer's Disease to Breast Cancer Brain Metastases”, MIT Women’s health Innovation forum, (2023)

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D. Sarkar, "Seamless fusion: Transcending humans beyond biological limitations" TEDxBoston (2023)

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D. Sarkar, "AI and Going Beyond: Adding Super Powers to our Brain"
TEDxMIT (2022)

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Research Highlights

Forest

Wireless sub-cellular sized nanoelectronic brain implants

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Radical treatment for pain and neurodegenerative diseases

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Novel bioelectronic therapy for incurable cancer

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Transformatory Technology for Women's Health

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Cell Rover: Exploring and Augmenting the Inner World of the Cell

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Revealing Hidden Biomolecular Nanostructures of Brain

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Atomically Thin Transistor Defies the Fundamental Limit

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New Paradigm in Label-Free Biosensing

News Highlights

Deblina Sarkar featured in Forbes

Deblina Sarkar awarded The ChadTough Defeat DIPG New Investigator Award (one of 4 awardees nationwide)

Deblina Sarkar receives the NSF CAREER Award

Deblina Sarkar named MIT-Royalty Pharma Faculty Founder Innovation Fellow 2023-24

Deblina Sarkar receives Nanomaterials Young Investigator Award (one of the 3 awardees worldwide)

Deblina Sarkar receives Nano Research Young Innovators Awards in Bio-inspired Nanomaterials

Deblina Sarkar wins The Sontag Foundation's Distinguished Scientist Award (one of the 3 awardees nationwide and only awardee from MIT within last decade)

Deblina Sarkar Named as MRS Early Career Distinguished Presenter

Deblina Sarkar named to the 2023 SN 10: Scientists to Watch list by Science News

Baju Joy receives the Whitaker Health Sciences Fellowship Award

Deblina Sarkar is among the seven scientists featured by MIND Prize in Nature Neuroscience

Deblina Sarkar received the MIND Prize

Our Cell Rover technology featured by the National Academy of Engineering

Deblina Sarkar and Shivam Kajale awarded Designing for Sustainability Funding with HPI Collaborators

Benoit Desbiolles receives the MIT Excellence Award

Marta Airaghi awarded the Novartis Innovation Fellowship

Shivam Kajale gives a TEDx talk on need to develop sustainable AI

Our Cell Rover technology featured by the Scientific American

Deblina Sarkar featured in the Association for Women in Science spotlight

Our Cell Rover technology is featured in the soft robotics collection which showcases the best papers recently published in Nature Communications in this area

NCB receives support from the NIH BRAIN Initiative.

Our technology Cell Rover is featured as the Editors’ Highlight in Nature Communications which showcases the 50 best papers recently published.

Deblina Sarkar received the NIH Director's New Innovator Award.

Deblina Sarkar awarded the Perfect and Rarely Achieved Impact Score by National Institute of Health

Sarah Cao wins the Outstanding UROP Student Award

Anna Haddad selected for the MIT’s Leaders for Global Operations Program

Deblina Sarkar is featured as the “Explorer of the Nano Age” by MIT.nano which highlighted eight pioneering nanotechnology researchers at MIT who are working to make our world a better place

NCB researchers demonstrate the first intracellular antenna that's compatible with 3D biological systems and can operate wirelessly inside a living cell

NCB student Yubin Cai receives the prestigious MIT Presidential Fellowship Award

Deblina Sarkar et. al. developed the technology which reveals biomolecular nanostructures in the brain that have never been seen before

Deblina Sarkar recognized as an Innovative Early Career Engineer by National Academy of Engineering

NCB research on developing 2D neuromorphic devices for sustainable Artificial Intelligence highlighted at MIT AI Hardware Program

Deblina Sarkar awarded the 2022 IEEE Nanotechnology Council (NTC) Early Career Award in Nanotechnology

NCB joins MIT AI hardware program

Deblina Sarkar recognized as a leading next generation scientist by United For Medical Research

Deblina Sarkar's research featured in IEEE Electron Device Society's newsletter

Deblina Sarkar received iCANX Young Scientists Award 2021

Deblina Sarkar featured by Imagination in Action: series highlighting some of the world’s most compelling people

Deblina shared her journey from nanoelectronics to neuroscience & the formation of her research group in a featured article in neuron.
Deblina Sarkar receives the Young Scientist Excellence Award at Microsystems and Nanoengineering Young Scientists Forum (the first engineering journal launched by Nature).

Deblina Sarkar joins the Editorial Board of npj 2D Materials and Applications: a journal from Nature Research.

Deblina Sarkar named to Technology Review's list of India's Top 10 Innovators Under Age 35

Won the NIH K99/R00 Pathway to Independence Award

Named MIT Translational Fellow: aiming to translate academic discoveries into clinical devices, 2017

Deblina Sarkar’s invention of few atoms thin-channel quantum transistor defying fundamental limits was featured by the National Academy of Engineering in their Engineering Innovation Podcast and Radio Series as “Reinventing the Transistor"

Deblina Sarkar deliver’s TEDx talk: Could We Soon Augment Our Brains?

Deblina Sarkar’s dissertation honored as one of the top 3 dissertations throughout USA and Canada in the field of Mathematics, Physical sciences and Engineering (all departments) by the Council of Graduate Schools (CGS)

Deblina Sarkar received the Lancaster Award for the best PhD Dissertation in the field of Mathematics, Physical Sciences and Engineering (all departments) at UCSB

Deblina Sarkar selected as one of the four scienstists worldwide to present a master class on physics in structural biology and medical diagnostics at the Lindau Nobel Laureate Meeting

Deblina Sarkar named a "Rising Star" in Electrical Engineering and Computer Science by MIT

Deblina Sarkar invented an unconventional quantum-mechanical transistor which overcomes the fundamental power limits and is published in Nature

Deblina Sarkar is one of the 4 young researchers from USA honored as "Bright Mind" and invited to speak at the KAUST-NSF Conference

Deblina Sarkar’s work on 2D material based versatile biosensor appeared in popular press including R&D Magazine, Phys Org etc.

Deblina Sarkar is one of the 3 winners of Falling Walls Lab Young Innovator Award at UC San Diego

Nature Nanotechnology highlighted Deblina Sarkar’s research introducing a new paradigm for biosensing, 2012.

Deblina Sarkar’s work on ultra-sensitive electrical biosensor covered by press EE Times, R&D Magazine, Science Newsline etc.