University of Groningen Spin transport in graphene-based van der Waals heterostructures Ingla Aynés, Josep

University of Groningen

Spin transport in graphene-based van der Waals heterostructures

Ingla Aynés, Josep

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Publication date: 2018

Link to publication in University of Groningen/UMCG research database

Citation for published version (APA):

Ingla Aynés, J. (2018). Spin transport in graphene-based van der Waals heterostructures. Rijksuniversiteit Groningen.

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List of publications

1. 24 µm spin relaxation length in boron nitride encapsulated bilayer graphene. J. Ingla-Ayn´es, M .H. D. Guimar˜aes, R. J. Meijerink, P. J. Zomer, & B. J. van Wees.

Physical Review B 92, 201410 (2015).

2. Eighty-Eight Percent Directional Guiding of Spin Currents with 90 µm Relax-ation Length in Bilayer Graphene Using Carrier Drift.

J. Ingla-Ayn´es, R. J. Meijerink, & B. J. van Wees. Nano Letters 16(8), 4825 (2016).

3. Drift control of spin currents in graphene-based spin current demultiplexers. J. Ingla-Ayn´es, A. A. Kaverzin & B. J. van Wees.

accepted for publication in Physical Review Applied.

4. Large Proximity-Induced Spin Lifetime Anisotropy in Transition-Metal Dichalco-genide/Graphene Heterostructures.

T. S. Ghiasi, J. Ingla-Ayn´es, A. A. Kaverzin, & B. J. van Wees. Nano Letters 17(12), 7528 (2017).

5. Observation of spin-valley coupling induced large spin lifetime anisotropy in bilayer graphene.

J. C. Leutenantsmeyer∗, J. Ingla-Ayn´es∗, J. Fabian, & B. J. van Wees. Physical Review Letters 121, 127702 (2018).

6. 1Trilayer boron nitride tunnel barriers for efficient spin injection. J. C. Leutenantsmeyer∗_{, J. Ingla-Ayn´es}∗_{, & B. J. van Wees.}

Accepted for publication in the Journal of Applied Physics.

∗_{these authors contributed equally to this work}

7. 1 _{Controlling spin relaxation in hexagonal BN-encapsulated graphene with a}

transverse electric field.

M .H. D. Guimar˜aes, P. J. Zomer, J. Ingla-Ayn´es, J. C. Brant, N. Tombros & B. J. van Wees.

Physical Review Letters 113, 086602 (2014).