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Your search keyword '"Mondal, Shubham"' showing total 115 results
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115 results on '"Mondal, Shubham"'

1. Unprecedented Enhancement of Piezoelectricity in Wurtzite Nitride Semiconductors via Thermal Annealing

Author

Mondal, Shubham, Tanim, Md Mehedi Hasan, Baucom, Garrett, Dabas, Shaurya S., Gao, Jinghan, Gaddam, Venkateswarlu, Liu, Jiangnan, Ross, Aiden, Chen, Long-Qing, Kim, Honggyu, Tabrizian, Roozbeh, and Mi, Zetian

Subjects
Condensed Matter - Materials Science
Abstract

The incorporation of rare-earth elements in wurtzite nitride semiconductors, e.g., scandium alloyed aluminum nitride (ScAlN), promises dramatically enhanced piezoelectric responses, critical to a broad range of acoustic, electronic, photonic, and quantum devices and applications. Experimentally, however, the measured piezoelectric responses of nitride semiconductors are far below what theory has predicted. Here, we show that the use of a simple, scalable, post-growth thermal annealing process can dramatically boost the piezoelectric response of ScAlN thin films. We achieve a remarkable 3.5-fold increase in the piezoelectric modulus, d33 for 30% Sc content ScAlN, from 12.3 pC/N in the as-grown state to 45.5 pC/N, which is eight times larger than that of AlN. The enhancement in piezoelectricity has been unambiguously confirmed by three separate measurement techniques. Such a dramatic enhancement of d33 has been shown to impact the effective electromechanical coupling coefficient kt2 : increasing it from 13.8% to 76.2%, which matches the highest reported values in millimeter thick lithium niobate films but is achieved in a 100 nm ScAlN with a 10,000 fold reduction in thickness, thus promising extreme frequency scaling opportunities for bulk acoustic wave resonators for beyond 5G applications. By utilizing a range of material characterization techniques, we have elucidated the underlying mechanisms for the dramatically enhanced piezoelectric responses, including improved structural quality at the macroscopic scale, more homogeneous and ordered distribution of domain structures at the mesoscopic scale, and the reduction of lattice parameter ratio (c/a) for the wurtzite crystal structure at the atomic scale. Overall, the findings present a simple yet highly effective pathway that can be extended to other material families to further enhance their piezo responses.

Published
2024

2. Nanoscale Engineering of Wurtzite Ferroelectrics: Unveiling Phase Transition and Ferroelectric Switching in ScAlN Nanowires

Author

Wang, Ding, Wang, Ping, Mondal, Shubham, Hu, Mingtao, Wu, Yuanpeng, Wang, Danhao, Sun, Kai, and Mi, Zetian

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The pursuit of extreme device miniaturization and the exploration of novel physical phenomena have spurred significant interest in crystallographic phase control and ferroelectric switching in reduced dimensions. Recently, wurtzite ferroelectrics have emerged as a new class of functional materials, offering intriguing piezoelectric and ferroelectric properties, CMOS compatibility, and seamless integration with mainstream semiconductor technology. However, the exploration of crystallographic phase and ferroelectric switching in reduced dimensions, especially in nanostructures, has remained a largely uncharted territory. In this study, we present the first comprehensive investigation into the crystallographic phase transition of ScAlN nanowires across the full Sc compositional range. While a gradual transition from wurtzite to cubic phase was observed with increasing Sc composition, we further demonstrated that a highly ordered wurtzite phase ScAlN could be confined at the ScAlN/GaN interface for Sc contents surpassing what is possible in conventional films, holding great potential to addressing the fundamental high coercive field of wurtzite ferroelectrics. In addition, we provide the first evidence of ferroelectric switching in ScAlN nanowires, a result that holds significant implications for future device miniaturization. Our demonstration of tunable ferroelectric ScAlN nanowires opens new possibilities for nanoscale, domain, alloy, strain, and quantum engineering of wurtzite ferroelectrics, representing a significant stride towards the development of next-generation, miniaturized devices based on wurtzite ferroelectrics.

Published
2024

9. A synergetic cocatalyst for conversion of carbon dioxide, sunlight, and water into methanol.

Author

Zhengwei Ye, Yang, Ke R., Bingxing Zhang, Navid, Ishtiaque Ahmed, Yifan Shen, Yixin Xiao, Pofelski, Alexandre, Botton, Gianluigi A., Tao Ma, Mondal, Shubham, Norris, Theodore B., Batista, Victor S., and Zetian Mi

Subjects
CARBON offsetting, LIQUID fuels, SUSTAINABILITY, CHROMIUM oxide, PHOTOREDUCTION
Abstract

The conversion of CO2 into liquid fuels, using only sunlight and water, offers a promising path to carbon neutrality. An outstanding challenge is to achieve high efficiency and product selectivity. Here, we introduce a wireless photocatalytic architecture for conversion of CO2 and water into methanol and oxygen. The catalytic material consists of semiconducting nanowires decorated with core-shell nanoparticles, with a copper-rhodium core and a chromium oxide shell. The Rh/CrOOH interface provides a unidirectional channel for proton reduction, enabling hydrogen spillover at the core-shell interface. The vectorial transfer of protons, electrons, and hydrogen atoms allows for switching the mechanism of CO2 reduction from a proton-coupled electron transfer pathway in aqueous solution to hydrogenation of CO2 with a solar-to-methanol efficiency of 0.22%. The reported findings demonstrate a highly efficient, stable, and scalable wireless system for synthesis of methanol from CO2 that could provide a viable path toward carbon neutrality and environmental sustainability. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Ferroelectric YAlN grown by molecular beam epitaxy

Author

Wang, Ding, primary, Mondal, Shubham, additional, Liu, Jiangnan, additional, Hu, Mingtao, additional, Wang, Ping, additional, Yang, Samuel, additional, Wang, Danhao, additional, Xiao, Yixin, additional, Wu, Yuanpeng, additional, Ma, Tao, additional, and Mi, Zetian, additional

Published
2023
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25. A COMPARATIVE STUDY OF METAHEURISTICS ALGORITHMS BASED ON THEIR PERFORMANCE OF COMPLEX BENCHMARK PROBLEMS.

Author

Sadhu, Tithli, Chowdhury, Somanth, Mondal, Shubham, Roy, Jagannath, Chakrabarty, Jitamanyu, and Lahiri, Sandip Kumar

Subjects
METAHEURISTIC algorithms, PARTICLE swarm optimization, DIFFERENTIAL evolution, SIMULATED annealing, COMPUTER simulation
Abstract

Metaheuristic approaches with significant improvements are very promising in the solution of intractable optimization problems. The objective of the present study is to test the capability of applications and compare performance of the four selected algorithms from "classical" (simulated annealing (SA), genetic algorithm (GA), particle swarm optimization (PSO), and differential evolution (DE)) and "new generation" (firefly algorithm (FFA), krill herd (KH), grey wolf optimization (GWO), and symbiotic organism search (SOS)) each by solving selected benchmark problems. SOS and KH algorithm successfully solved most of all the selected problems by achieving the best solution in minimum execution time. On the other hand, DE, and PSO also effectively attained the optimal solution which were very close to the best one. Therefore, no firm conclusion can be done about the universally best algorithm and their performance may be varied for different benchmark problems. However, "new generation" algorithm exhibited the most promising result and great potential than the "classical" one. This study gives some insights to use SOS and KH as best performing algorithm to the novice user who can easily get lost by the plethora of large number of optimization algorithms. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Controlled ferroelectric switching in ultrawide bandgap AlN/ScAlN multilayers.

Author

Wang, Ding, Wang, Ping, Mondal, Shubham, Liu, Jiangnan, Hu, Mingtao, He, Minming, Nam, Suhyun, Peng, Wenhao, Yang, Samuel, Wang, Danhao, Xiao, Yixin, Wu, Yuanpeng, Mortazawi, Amir, and Mi, Zetian

Subjects
MULTILAYERS, MOLECULAR beam epitaxy, MOLECULAR structure, COMPOSITE structures, PIEZOELECTRIC composites, FERROELECTRIC devices
Abstract

Ultrawide bandgap ferroelectric nitride semiconductors have shown promising applications in electronic, micromechanical, and optical devices. Current studies, however, have largely been focused on single layer ferroelectric nitrides. Controlled polarization switching in artificial multilayer composite structures, such as ferroelectric/piezoelectric or ferroelectric/dielectric heterostructures, provides additional dimension for engineering their properties and improving device performance and functionality. Here, we demonstrate controlled ferroelectric switching in an AlN/ScAlN/AlN trilayer structure grown by molecular beam epitaxy. The trilayer showed large switchable polarization with reasonable endurance and retention performance. Polarity-sensitive wet etching further confirmed the controlled switching in the clamped ScAlN layer. The ability to control the polarity switching in ScAlN/AlN multilayers offers an intriguing avenue for the design and development of next-generation electronic, piezoelectronic, and ferroelectric devices. [ABSTRACT FROM AUTHOR]

Published
2023
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38. In-Situ Tailoring of Vertically Coupled InAs p-i-p Quantum-Dot Infrared Photodetectors: Toward Homogeneous Dot Size Distribution and Minimization of In–Ga Intermixing

Author

Dongre, Suryansh, primary, Paul, Sritoma, additional, Mondal, Shubham, additional, Kumar, Ravindra, additional, Panda, Debiprasad, additional, Gazi, Sanowar Alam, additional, Das, Debabrata, additional, Kumar, Ravinder, additional, Shriram, Saranya Reddy, additional, Mantri, Manas Ranjan, additional, Tongbram, Binita, additional, and Chakrabarti, Subhananda, additional

Published
2020
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