Debopriya Dutta scite author profile

The formation of lateral heterojunction arrays within two-dimensional (2D) crystals is an essential step to realize high-density, ultrathin electro-optical integrated circuits, although the assembling of such structures remains elusive. Here we demonstrated a rapid, scalable, and site-specific integration of lateral 2D heterojunction arrays using few-layer indium selenide (In 2 Se 3 ). We use a scanning laser probe to locally convert In 2 Se 3 into In 2 O 3 , which shows a significant increase in carrier mobility and transforms the metal−semiconductor junctions from Schottky to ohmic type. In addition, a lateral p−n heterojunction diode within a single nanosheet is demonstrated and utilized for photosensing applications. The presented method enables high-yield, site-specific formation of lateral 2D In 2 Se 3 −In 2 O 3 -based hybrid heterojunctions for realizing nanoscale devices with multiple advanced functionalities.

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Cross-field optoelectronic modulation via inter-coupled ferroelectricity in 2D In2Se3

Dutta

Mukherjee

Uzhansky

et al. 2021

npj 2D Mater Appl

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The ability to couple the in-plane (IP) and out-of-plane (OOP) dipole polarizations in ferroelectric In2Se3 makes it a promising material for multimodal memory and optoelectronic applications. Herein, we experimentally demonstrate the cross-field optoelectronic modulation in In2Se3 based field-effect devices. Surface potential measurements of In2Se3 based devices directly reveal the bidirectional dipole locking following high gate voltage pulses. The experimental evidence of hysteretic change in the IP electrical field facilitating a nonvolatile memory switch, was further explored by performing photocurrent measurements. Fabricated photodetectors presented multilevel photocurrent characteristics showing promise for nonvolatile memory and electro-optical applications.

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Monolithic In2Se3–In2O3 heterojunction for multibit non-volatile memory and logic operations using optoelectronic inputs

et al. 2022

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Stable ferroelectricity at room-temperature down to the monolayer limit, harnessed with strong sensitivity towards visible-to-near-infrared illumination in α-In2Se3, facilitates its potential as versatile building block for developing ultrathin multifunctional photonic integrated networks. Herein, we demonstrated a planar ferroelectric-semiconductor heterojunction (FeS-HJ) field-effect transistor (FET) fabricated out of α-In2Se3 and In2O3, where the ferroelectric-polarization state in α-In2Se3 is utilized to control the device characteristics. The robust in-plane (IP) polarization flipping triggered by out-of-plane (OOP) electrostatic field along with clear anticlockwise hysteresis loop were readily revealed by scanning Kelvin-probe force microscopy (KPFM) and electrical probing. The orthogonally tangled ferroelectric switching was used to manipulate the HJ channel conductance and thereby to realize non-volatile memory (NVM) states. Moreover, gate-tuneable diode-like characteristics and superior photoresponse in HJ compared to its individual constitutes were observed. Utilizing the concurrent ferro-photonic coupling, high bandwidth optical inputs further tailored the outputs into four distinguished current states induced by different polarization directions. Our results pave the way for developing advanced (opto) electronic devices with diverse signal modulation capability to realize next generation low-power neurocomputing, brain-inspired visionary systems, and on-chip optical communications.

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The scaling laws of edge vs. bulk interlayer conduction in mesoscale twisted graphitic interfaces

Dutta

Hod

et al. 2020

Nat Commun

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The unusual electronic properties of edges in graphene-based systems originate from the pseudospinorial character of their electronic wavefunctions associated with their non-trivial topological structure. This is manifested by the appearance of pronounced zero-energy electronic states localized at the material zigzag edges that are expected to have a significant contribution to the interlayer transport in such systems. In this work, we utilize a unique experimental setup and electronic transport calculations to quantitatively distinguish between edge and bulk transport, showing that their relative contribution strongly depends on the angular stacking configuration and interlayer potential. Furthermore, we find that, despite of the strong localization of edge state around the circumference of the contact, edge transport in incommensurate interfaces can dominate up to contact diameters of the order of 2 μm, even in the presence of edge disorder. The intricate interplay between edge and bulk transport contributions revealed in the present study may have profound consequences on practical applications of nanoscale twisted graphene-based electronics.

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Edge-Based Two-Dimensional α-In₂Se₃–MoS₂ Ferroelectric Field Effect Device

Dutta

Mukherjee

Uzhansky

et al. 2023

ACS Appl. Mater. Interfaces

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Heterostructures based on two-dimensional materials offer the possibility to achieve synergistic functionalities, which otherwise remain secluded by their individual counterparts. Herein, ferroelectric polarization switching in α-In 2 Se 3 has been utilized to engineer multilevel nonvolatile conduction states in a partially overlapping α-In 2 Se 3 −MoS 2 -based ferroelectric semiconducting field effect device. In particular, we demonstrate how the intercoupled ferroelectric nature of α-In 2 Se 3 allows to nonvolatilely switch between n-i and n-i-n type junction configurations based on a novel edge state actuation mechanism, paving the way for subnanometric scale nonvolatile device miniaturization. Furthermore, the induced asymmetric polarization enables enhanced photogenerated carriers' separation, resulting in an extremely high photoresponse of ∼1275 A/W in the visible range and strong nonvolatile modulation of the bright A-and B-excitonic emission channels in the overlaying MoS 2 monolayer. Our results show significant potential to harness the switchable polarization in partially overlapping α-In 2 Se 3 −MoS 2 based FeFETs to engineer multimodal, nonvolatile nanoscale electronic and optoelectronic devices.

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Debopriya Dutta

Scalable Integration of Coplanar Heterojunction Monolithic Devices on Two-Dimensional In₂Se₃

Cross-field optoelectronic modulation via inter-coupled ferroelectricity in 2D In2Se3

Monolithic In2Se3–In2O3 heterojunction for multibit non-volatile memory and logic operations using optoelectronic inputs

The scaling laws of edge vs. bulk interlayer conduction in mesoscale twisted graphitic interfaces

Edge-Based Two-Dimensional α-In₂Se₃–MoS₂ Ferroelectric Field Effect Device

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Debopriya Dutta

Scalable Integration of Coplanar Heterojunction Monolithic Devices on Two-Dimensional In2Se3

Cross-field optoelectronic modulation via inter-coupled ferroelectricity in 2D In2Se3

Monolithic In2Se3–In2O3 heterojunction for multibit non-volatile memory and logic operations using optoelectronic inputs

The scaling laws of edge vs. bulk interlayer conduction in mesoscale twisted graphitic interfaces

Edge-Based Two-Dimensional α-In2Se3–MoS2 Ferroelectric Field Effect Device

Contact Info

Product

Resources

About

Scalable Integration of Coplanar Heterojunction Monolithic Devices on Two-Dimensional In₂Se₃

Edge-Based Two-Dimensional α-In₂Se₃–MoS₂ Ferroelectric Field Effect Device