A controllable interlayer shielding effect in twisted multilayer graphene quantum dots
When multilayer graphene (MLG) is subjected to a vertical electric field, electrons traverse across the layers and its interlayer electrical conductance and shielding effect exhibit remarkable diversity, leading to exotic phenomena and diverse applications in photoelectric devices. The rearrangement...
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sg-ntu-dr.10356-1810492024-11-12T06:36:11Z A controllable interlayer shielding effect in twisted multilayer graphene quantum dots Wang, Xian Lu, Yunpeng School of Chemistry, Chemical Engineering and Biotechnology Engineering Multilayer graphene Photoelectrics When multilayer graphene (MLG) is subjected to a vertical electric field, electrons traverse across the layers and its interlayer electrical conductance and shielding effect exhibit remarkable diversity, leading to exotic phenomena and diverse applications in photoelectric devices. The rearrangement of electrons induced by this external field is aptly described by polarizability, which quantifies the electronic response to the applied field. In this work, we have developed a polarizability decomposition scheme based on field-induced electron density variations computed using a first-principles approach. This scheme allows us to isolate the inter- and intra-layer contributions from the total polarizability of twisted multilayer graphene (TMG) quantum dots. The inter- and intra-layer counterparts reflect the charge transfer (CT) and field shielding effects among the layers, respectively. While the strongest shield effect is observed between the outermost two layers, the largest CT change is noted in the outermost layers, but small or nearly zero CT changes in the inner layers. Significant CT and shielding effects are observed not only in strongly coupled Bernal stacking, but also in the structures misaligned from full-(AA)N stacking by a small and size-dependent twist angle. The dielectric behaviors of the TMG quantum dots of a few layers are layer-dependent and different from those of typical dielectrics. Moreover, both the shielding and CT effects exhibit variation with thickness, twist angle and disc size, suggesting controllable conductive/dielectric conversion in the vertical direction. Considering the inter- and intralayer polarizability, our study addresses the precise modulation of interlayer conductance and shielding effect for TMG quantum dots, essential for microstructure design and performance manipulation of MLG-based photoelectric devices. Ministry of Education (MOE) The authors thank the financial support from the Ministry of Education, Singapore under its Academic Research Fund Tier 1 RG82/22. 2024-11-12T06:36:11Z 2024-11-12T06:36:11Z 2024 Journal Article Wang, X. & Lu, Y. (2024). A controllable interlayer shielding effect in twisted multilayer graphene quantum dots. Nanoscale, 16(38), 17974-17983. https://dx.doi.org/10.1039/d4nr03330b 2040-3364 https://hdl.handle.net/10356/181049 10.1039/d4nr03330b 39235787 2-s2.0-85203534437 38 16 17974 17983 en RG82/22 Nanoscale © 2024 The Author(s). All rights reserved. |
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Engineering Multilayer graphene Photoelectrics |
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Engineering Multilayer graphene Photoelectrics Wang, Xian Lu, Yunpeng A controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
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When multilayer graphene (MLG) is subjected to a vertical electric field, electrons traverse across the layers and its interlayer electrical conductance and shielding effect exhibit remarkable diversity, leading to exotic phenomena and diverse applications in photoelectric devices. The rearrangement of electrons induced by this external field is aptly described by polarizability, which quantifies the electronic response to the applied field. In this work, we have developed a polarizability decomposition scheme based on field-induced electron density variations computed using a first-principles approach. This scheme allows us to isolate the inter- and intra-layer contributions from the total polarizability of twisted multilayer graphene (TMG) quantum dots. The inter- and intra-layer counterparts reflect the charge transfer (CT) and field shielding effects among the layers, respectively. While the strongest shield effect is observed between the outermost two layers, the largest CT change is noted in the outermost layers, but small or nearly zero CT changes in the inner layers. Significant CT and shielding effects are observed not only in strongly coupled Bernal stacking, but also in the structures misaligned from full-(AA)N stacking by a small and size-dependent twist angle. The dielectric behaviors of the TMG quantum dots of a few layers are layer-dependent and different from those of typical dielectrics. Moreover, both the shielding and CT effects exhibit variation with thickness, twist angle and disc size, suggesting controllable conductive/dielectric conversion in the vertical direction. Considering the inter- and intralayer polarizability, our study addresses the precise modulation of interlayer conductance and shielding effect for TMG quantum dots, essential for microstructure design and performance manipulation of MLG-based photoelectric devices. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Wang, Xian Lu, Yunpeng |
| format |
Article |
| author |
Wang, Xian Lu, Yunpeng |
| author_sort |
Wang, Xian |
| title |
A controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
| title_short |
A controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
| title_full |
A controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
| title_fullStr |
A controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
| title_full_unstemmed |
A controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
| title_sort |
controllable interlayer shielding effect in twisted multilayer graphene quantum dots |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181049 |
| _version_ |
1816858930802851840 |