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Disambiguation of "Jain, Faquir C."

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Highly Linear Amperometric Glucose Detection System Realized in Deep Submicron CMOS Technology.

, , , , , , , and . MeMeA, page 1-5. IEEE, (2019)

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Gora Jain

Arpit Jain

Himalaya Jain

Tushar Jain

Prabhat Jain

 

Other publications of authors with the same name

Towards achieving reliable and high-performance nanocomputing via dynamic redundancy allocation., , and . JETC, 5 (1): 2:1-2:21 (2009)Needle-implantable, wireless biosensor for continuous glucose monitoring., , , , , and . BSN, page 1-5. IEEE, (2015)Unipolar Logic Gates Based on Spatial Wave-Function Switched FETs., , and . IEEE Trans. Very Large Scale Integr. Syst., 23 (4): 609-618 (2015)Programmable threshold voltage using quantum dot transistors for low-power mobile computing., , , , and . ISCAS, page 3350-3353. IEEE, (2008)Design of Ternary Logic Combinational Circuits Based on Quantum Dot Gate FETs., , and . IEEE Trans. Very Large Scale Integr. Syst., 21 (5): 793-806 (2013)Floating Gate Nonvolatile Memory Using Individually Cladded Monodispersed Quantum Dots., , , and . IEEE Trans. Very Large Scale Integr. Syst., 25 (5): 1774-1781 (2017)Theoretical Analysis of the Performance of Glucose Sensors with Layer-by-Layer Assembled Outer Membranes., , , and . Sensors, 12 (10): 13402-13416 (2012)Dynamic redundancy allocation for reliable and high-performance nanocomputing., , and . NANOARCH, page 1-6. IEEE Computer Society, (2007)Implementation of Six Bit ADC and DAC Using Quantum Dot Gate Non-Volatile Memory., , and . J. Signal Process. Syst., 75 (3): 209-216 (2014)Utilizing quantum dot transistors with programmable threshold voltages for low-power mobile computing., , , , and . JETC, 5 (3): 15:1-15:19 (2009)