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181 results on '"Pachauri, Vivek"'

1. Gate Camouflaging Using Reconfigurable ISFET-Based Threshold Voltage Defined Logic

Author

Moussavi, Elmira, Singh, Animesh, Sisejkovic, Dominik, Kumar, Aravind Padma, Kizatov, Daniyar, Ingebrandt, Sven, Leupers, Rainer, Pachauri, Vivek, and Merchant, Farhad

Subjects
Computer Science - Emerging Technologies, Computer Science - Cryptography and Security
Abstract

Most chip designers outsource the manufacturing of their integrated circuits (ICs) to external foundries due to the exorbitant cost and complexity of the process. This involvement of untrustworthy, external entities opens the door to major security threats, such as reverse engineering (RE). RE can reveal the physical structure and functionality of intellectual property (IP) and ICs, leading to IP theft, counterfeiting, and other misuses. The concept of the threshold voltage-defined (TVD) logic family is a potential mechanism to obfuscate and protect the design and prevent RE. However, it addresses post-fabrication RE issues, and it has been shown that dopant profiling techniques can be used to determine the threshold voltage of the transistor and break the obfuscation. In this work, we propose a novel TVD modulation with ion-sensitive field-effect transistors (ISFETs) to protect the IC from RE and IP piracy. Compared to the conventional TVD logic family, ISFET-TVD allows post-manufacture programming. The ISFET-TVD logic gate can be reconfigured after fabrication, maintaining an exact schematic architecture with an identical layout for all types of logic gates, and thus overcoming the shortcomings of the classic TVD. The threshold voltage of the ISFETs can be adjusted after fabrication by changing the ion concentration of the material in contact with the ion-sensitive gate of the transistor, depending on the Boolean functionality. The ISFET is CMOS compatible, and therefore implemented on 45 nm CMOS technology for demonstration.

Published
2023

2. A Temperature Independent Readout Circuit for ISFET-Based Sensor Applications

Author

Moussavi, Elmira, Sisejkovic, Dominik, Singh, Animesh, Kizatov, Daniyar, Leupers, Rainer, Ingebrandt, Sven, Pachauri, Vivek, and Merchant, Farhad

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Emerging Technologies
Abstract

The ion-sensitive field-effect transistor (ISFET) is an emerging technology that has received much attention in numerous research areas, including biochemistry, medicine, and security applications. However, compared to other types of sensors, the complexity of ISFETs make it more challenging to achieve a sensitive, fast and repeatable response. Therefore, various readout circuits have been developed to improve the performance of ISFETs, especially to eliminate the temperature effect. This paper presents a new approach for a temperature-independent readout circuit that uses the threshold voltage differences of an ISFET-MOSFET pair. The Linear Technology Simulation Program with Integrated Circuit Emphasis (LTspice) is used to analyze the ISFET performance based on the proposed readout circuit characteristics. A macro-model is used to model ISFET behavior, including the first-level Spice model for the MOSFET part and Verilog-A to model the surface potential, reference electrode, and electrolyte of the ISFET to determine the relationships between variables.In this way, the behavior of the ISFET is monitored by the output voltage of the readout circuit based on a change in the electrolyte's hydrogen potential (pH), determined by the simulation. The proposed readout circuit has a temperature coefficient of 11.9 $ppm/{\deg}C$ for a temperature range of 0-100 ${\deg}C$ and pH between 1 and 13. The proposed ISFET readout circuit outperforms other designs in terms of simplicity and not requiring an additional sensor., Comment: 4pages, 6 figures, Accepted in LATS 2022

Published
2022

4. pHGen: A pH-Based Key Generation Mechanism Using ISFETs

Author

Moussavi, Elmira, Sisejkovic, Dominik, Brings, Fabian, Kizatov, Daniyar, Singh, Animesh, Vu, Xuan Thang, Ingebrandt, Sven, Leupers, Rainer, Pachauri, Vivek, and Merchant, Farhad

Subjects
Computer Science - Emerging Technologies
Abstract

Digital keys are a fundamental component of many hardware- and software-based security mechanisms. However, digital keys are limited to binary values and easily exploitable when stored in standard memories. In this paper, based on emerging technologies, we introduce pHGen, a potential-of-hydrogen (pH)-based key generation mechanism that leverages chemical reactions in the form of a potential change in ion-sensitive field-effect transistors (ISFETs). The threshold voltage of ISFETs is manipulated corresponding to a known pH buffer solution (key) in which the transistors are immersed. To read the chemical information effectively via ISFETs, we designed a readout circuit for stable operation and detection of voltage thresholds. To demonstrate the applicability of the proposed key generation, we utilize pHGen for logic locking -- a hardware integrity protection scheme. The proposed key-generation method breaks the limits of binary values and provides the first steps toward the utilization of multi-valued voltage thresholds of ISFETs controlled by chemical information. The pHGen approach is expected to be a turning point for using more sophisticated bio-based analog keys for securing next-generation electronics., Comment: Accepted in HOST 2022

Published
2022

12. Biomimetic/Bioderived Nanoengineered Interfaces for Biosensor Applications: A Review.

Author

Sahoo, Jyotirmayee, Sharma, Riya, Pachauri, Vivek, and Gandhi, Sonu

Abstract

Nature inspires technological innovation through unique micronanostructured surfaces, such as fish fins, lotus leaves, butterfly wings, rose petals, a bird's spongy bone, etc. These structures exhibit capabilities beyond conventional engineering, making biomimetics a key focus of scientific research. Integrating nanotechnology, biology, and bioengineering has significantly propelled the development of nanomaterials with distinct functions and properties. This interdisciplinary synergy has extensively advanced biomimetic nanomaterials. This review highlights biomimetic nanomaterials, with an emphasis on state-of-the-art sensing devices. In addition to this, it furnishes an extensive compendium of investigations into synthesis and fabrication of biomimetic nanomaterials, such as metal–organic frameworks (MOFs), molecularly imprinted polymers (MIPs), carbon-based biomimetic nanomaterials (graphene, carbon nanotubes), and gold nanoparticles (AuNPs), for biosensor development. We have focused on their applications in disease diagnostics within healthcare while also addressing their role in environmental monitoring and agriculture. This comprehensive review aims to impart an insightful understanding of the scientific complexities associated with these technologies and concludes with an appraisal of current challenges and future developments. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Comparative Study of Surface Activation Steps for Thermally Grown Oxide Interface and Optimal Silanization.

Author

Murugan, Divagar, Tintelott, Marcel, Amiri, Hesam, Kasavetov, Martin, Besedin, Denis, Ingebrandt, Sven, Vu, Xuan Thang, and Pachauri, Vivek

Subjects
SILANIZATION, INDIUM gallium zinc oxide, SILICON oxide, FIELD-effect devices, AMINOSILANES, FIELD-effect transistors
Abstract

Silanization is one of the widely explored surface modification strategies for biofunctionalization of oxide interfaces. For biosensor applications, silanes with active terminal groups such as amine, thiol, carboxylic, and aldehyde groups are utilized in routine. In near‐field sensing schemes like biologically sensitive field‐effect transistors, it is crucial to generate a homogeneous layer of silane to confine the biointeractions in close vicinity of the sensor interface. The homogeneity of such biofunctional layer is determined by the surface activation and silanization protocol being applied. Herein, the impact of the surface activation process and silanization on electrical characteristics of field‐effect devices is studied comprehensively using an electrolyte‐oxide‐semiconductor (EOS) capacitor with a high‐quality gate oxide. The thermally grown silicon oxide (SiO2) interface is activated using acidic mixtures and plasma treatment, while the subsequent silanization steps are investigated comparatively using two different silanes (3‐aminopropyl triethoxysilane (APTES) and 3‐glycidyloxypropyl trimethoxysilane (GPTMS) in wet‐chemical and vapor‐phase processes. Furthermore, the optimized silanization process is utilized to immobilize an oligo strand at the EOS capacitor surface, followed by the hybridization of complementary oligo strands. The optimized protocol holds the potential for large‐scale production of functional oxide interfaces for various applications. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Lock-in photothermal method for in-plane thermal diffusivity measurements using arrayed temperature sensors on suspended SiNx membranes.

Author

Jiang, Felix, Ryu, Meguya, Pachauri, Vivek, Ingebrandt, Sven, Vu, Xuan Thang, and Morikawa, Junko

Subjects
TEMPERATURE sensors, THERMAL diffusivity, HEAT conduction, SILICON nitride, SENSOR arrays, PHONONS
Abstract

A device consisting of a line- or spiral-shaped temperature sensor array on a two-dimensional (2D) silicon nitride (SiNx) membrane of thickness 50 or 150 nm is developed for use in the lock-in photothermal method to determine the in-plane thermal diffusivity of SiNx membranes in air and in vacuum. The results of 2D heat diffusion are analyzed by the quadrupole method, and the system is approximated to the one-dimensional (1D) fin standing in a surrounding media (the fin approximation). The results show that 2D thermal diffusion on the membrane is affected not only by heat exchange with the surrounding environment but also by parallel thermal diffusion caused by heat conduction in the air along the membrane surface. The measurement using photothermal heating and contact detection of the temperature response enables the phenomenon to be detected consistently at a wide frequency range of temperature waves (50–1000 Hz). The measured thermal diffusivity values of the SiNx membrane are much smaller than those of bulk material, which can be reasonably considered an effect of the confined state of the phonon in the nanoscale geometry of the membrane. [ABSTRACT FROM AUTHOR]

Published
2023
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37. pHGen: A pH-Based Key Generation Mechanism Using ISFETs

Author

Moussavi, Elmira, primary, Sisejkovic, Dominik, additional, Brings, Fabian, additional, Kizatov, Daniyar, additional, Singh, Animesh, additional, Vu, Xuan Thang, additional, Leupers, Rainer, additional, Ingebrandt, Sven, additional, Pachauri, Vivek, additional, and Merchant, Farhad, additional

Published
2022
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38. Physical Interpretation of Mixed Ionic‐electronic Conductive Polymer‐coated Electrodes by a Simple Universal Impedance Model.

Author

Tintelott, Marcel, Kremers, Tom, Mernitz, Anabel, Ingebrandt, Sven, Pachauri, Vivek, Vu, Xuan Thang, and Schnakenberg, Uwe

Subjects
GOLD electrodes, CIRCUIT elements, ELECTRODES, ELECTRIC circuits, CONDUCTING polymers, SOLID-liquid interfaces
Abstract

A simple equivalent electrical circuit is used to obtain the physical parameters of electrical circuit elements from measured electrochemical impedance spectra. This model consists of four circuit elements with a clear physical meaning for each of the elements. Compared to complex models with multiple constant phase elements or Warburg impedances, our model is suitable for extracting physical values for important electrode parameters with low errors. The feasibility of the model was shown by investigating pure metal or polymer‐coated electrodes. Here, gold electrodes were coated either with Poly(3,4‐ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT : PSS), Polypyrrole:poly(styrenesulfonate) (PPy : PSS), or (PEDOT/PPy) : PSS by means of electropolymerization. The model could demonstrate the ionic‐electronic differences such as the ion accessibility of the differently coated electrodes. To prove the correctness of the model, the obtained results were compared to the literature. [ABSTRACT FROM AUTHOR]

Published
2023
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41. Physical interpretation of mixed ionic-electronic conductive polymer-coated electrodes by a simple universal impedance model

Author

Tintelott, Marcel, Kremers, Tom, Mernitz, Anabel, Ingebrandt, Sven, Pachauri, Vivek, Vu, Xuan Thang, and Schnakenberg, Uwe

Subjects
ddc:540, Electrochemistry, Analytical Chemistry
Abstract

Electroanalysis : an international journal devoted to fundamental and practical aspects of electroanalysis (2022). doi:10.1002/elan.202200332, Published by Wiley-VCH-Verl., Weinheim

Published
2022
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42. Realization of a PEDOT : PSS/Graphene Oxide On-Chip Pseudo-Reference Electrode for Integrated ISFETs

Author

Tintelott, Marcel, Kremers, Tom, Ingebrandt, Sven, Pachauri, Vivek, and Vu, Xuan Thang

Subjects
ddc:620
Abstract

Sensors 22(8), 2999 (2022). doi:10.3390/s22082999 special issue: "Special Issue "Field-Effect Sensors: From pH Sensing to Biosensing" / Special Issue Editors: Prof. Dr. Michael J. Schöning, Guest Editor; Prof. Dr. Sven Ingebrandt, Guest Editor", Published by MDPI, Basel

Published
2022

44. Nano Security: From Nano-Electronics to Secure Systems

Author

Polian, Ilia, primary, Altmann, Frank, additional, Arul, Tolga, additional, Boit, Christian, additional, Brederlow, Ralf, additional, Davi, Lucas, additional, Drechsler, Rolf, additional, Du, Nan, additional, Eisenbarth, Thomas, additional, Guneysu, Tim, additional, Hermann, Sascha, additional, Hiller, Matthias, additional, Leupers, Rainer, additional, Merchant, Farhad, additional, Mussenbrock, Thomas, additional, Katzenbeisser, Stefan, additional, Kumar, Akash, additional, Kunz, Wolfgang, additional, Mikolajick, Thomas, additional, Pachauri, Vivek, additional, Seifert, Jean-Pierre, additional, Torres, Frank Sill, additional, and Trommer, Jens, additional

Published
2021
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48. The spatial self-organization within pluripotent stem cell colonies is continued in detaching aggregates

Author

Elsafi Mabrouk, Mohamed H., primary, Goetzke, Roman, additional, Abagnale, Giulio, additional, Yesilyurt, Burcu, additional, Salz, Lucia, additional, Zeevaert, Kira, additional, Ma, Zhiyao, additional, Toledo, Marcelo A. S., additional, Li, Ronghui, additional, Costa, Ivan G., additional, Pachauri, Vivek, additional, Schnakenberg, Uwe, additional, Zenke, Martin, additional, and Wagner, Wolfgang, additional

Published
2020
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50. Beyond Binaries: Dawn of the Rights of Transgenders

Author

Pachauri Vivek and Vandana Singh

Subjects
Transgender, History, Law, Judgement, Rights
Abstract

In 2014, the Supreme Court of India passed a landmark judgment which is believed by many to be the dawn of the rights for the transgender persons. The judgement aimed at providing an equal platform to transgender with other citizens aligning them with the social fabric of the society. More than four years have passed since the judgement but there has been no perceptible change to be found. The government has failed to form any major social welfare scheme for the inclusion of the transgender within the society despite being directed by the Supreme court of India.

Published
2019
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