Artur Turo - FINDER Research Group

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So far Artur Turo has created 160 blog entries.

∼5-Fold enhancement in the thermoelectric figure of merit of sustainable 3D-CuNi interconnected nanonetworks due to ultralow lattice thermal conductivity
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∼5-Fold enhancement in the thermoelectric figure of merit of sustainable 3D-CuNi interconnected nanonetworks due to ultralow lattice thermal conductivity
Publications 2025

∼5-Fold enhancement in the thermoelectric figure of merit of sustainable 3D-CuNi interconnected nanonetworks due to ultralow lattice thermal conductivity

Authors: Manzano, Cristina V.; Caballero-Calero, Olga; Casari, Daniele; Sharma, Amit; Diaz-Lobo, Alba; Maeder, Xavier; Martin-Gonzalez, Marisol Article; Early Access. NANOSCALE. vol: . page: . Date: . 2025. Doi: 10.1039/d4nr05292g. Abstract: The pursuit of efficient thermoelectric materials, particularly those composed of low-toxicity and Earth-abundant elements, has intensified in recent years. This study introduces an approach to increase

Artur Turo2025-03-09T18:39:25+01:00March 9th, 2025|Categories: Publications 2025|

Transforming human energy into power: Innovations driving sustainability
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Transforming human energy into power: Innovations driving sustainability
Group News

Transforming human energy into power: Innovations driving sustainability

A team from Spain’s Institute of Micro and Nanotechnology (IMN), led by researcher Marisol Martín González, is spearheading the development of self-rechargeable devices. With funding from the European Research Council’s Advanced Grants programme, they are creating a new thermoelectric material capable of converting the body’s heat and motion into electricity. As the world strives for

Artur Turo2025-03-10T19:35:50+01:00February 20th, 2025|Categories: Group News|

Magnetoelastic anisotropy drives localized magnetization reversal in 3D nanowire networks
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Magnetoelastic anisotropy drives localized magnetization reversal in 3D nanowire networks
Publications 2025

Magnetoelastic anisotropy drives localized magnetization reversal in 3D nanowire networks

Authors: Vivas, Laura G.; Ruiz-Clavijo, Alejandra; Caballero-Calero, Olga; Navas, David; Ordonez-Cencerrado, Amanda A.; Manzano, Cristina V.; Sanz, Ruy; Martin-Gonzalez, Marisol Article. NANOSCALE. vol: 17. page: . Date: FEB 6 2025. 2025. Doi: 10.1039/d4nr04078c. Abstract: Three-dimensional magnetic nanowire networks (3DNNs) have shown promise for applications beyond those of their linear counterparts. However, understanding the underlying magnetization reversal

Artur Turo2025-03-09T18:39:49+01:00February 6th, 2025|Categories: Publications 2025|

Entrevista a Marisol Martín en CEPSA: “Recharge your smartwatch with your own body? The energy of the future is coming and is being developed in Spain”
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Entrevista a Marisol Martín en CEPSA: “Recharge your smartwatch with your own body? The energy of the future is coming and is being developed in Spain”
Group News

Entrevista a Marisol Martín en CEPSA: “Recharge your smartwatch with your own body? The energy of the future is coming and is being developed in Spain”

A group of researchers from the Institute of Micro and Nanotechnology have been working for two years on a device that can recharge itself using the heat and movement from the human body, thanks to a new thermoelectric material. When we talk about projects to improve energy efficiency, we usually think of large infrastructure.

Artur Turo2025-03-10T19:36:45+01:00January 18th, 2025|Categories: Group News|

Shedding Light on the Mid-Infrared Complex Refractive Index of Anodic Aluminum Oxide
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Shedding Light on the Mid-Infrared Complex Refractive Index of Anodic Aluminum Oxide
Publications 2024

Shedding Light on the Mid-Infrared Complex Refractive Index of Anodic Aluminum Oxide

Authors: Alba Díaz-Lobo, Irene Castro-Fernández, Eduardo Blanco, Daniel Ramos, Marisol Martin-Gonzalez, Cristina V. ManzanoArticle. Advanced Optical MaterialDate: 16 December 2024Doi: doi/10.1002/adom.202401967Abstract:In the current scientific landscape, the understanding of optical properties in the mid-infrared (mid-IR) range (3–30 µm) is crucial in simulations and models to explore the potential of materials for various applications. However, due to the

Artur Turo2024-12-16T20:13:48+01:00December 16th, 2024|Categories: Publications 2024|Tags: anodic aluminum oxide (AAO), complex refractive index, FT-IR spectrophotometry, Infrared Spectroscopic Ellipsometry (IRSE), simulations|

Flexible polyester-embedded thermoelectric device with Bi2Te3 and Te legs for wearable power generation
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Flexible polyester-embedded thermoelectric device with Bi2Te3 and Te legs for wearable power generation
Publications 2024

Flexible polyester-embedded thermoelectric device with Bi2Te3 and Te legs for wearable power generation

Authors: Caballero-Calero, O., Cervino-Solana, P., Cloetens, P., Monaco, F., & Martin-Gonzalez, M Article. Applied Materials Today Date: October 5, 2024 Doi: doi.org/10.1016/j.apmt.2024.102458 Abstract: This study presents an approach for powering wearable sensors by integrating nanostructured bismuth telluride (Bi2Te3 and Te legs) into flexible polyester substrates. The choice of polyester as the substrate is because it is

Artur Turo2024-12-14T13:23:48+01:00October 5th, 2024|Categories: Publications 2024|Tags: bismuth telluride, Clothing, Electrodeposition, Nanostructures, Thermoelectric generator, thin films|

Thermoelectric bismuth telluride nanostructures fabricated by electrodeposition within flexible templates
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Thermoelectric bismuth telluride nanostructures fabricated by electrodeposition within flexible templates
Publications 2024

Thermoelectric bismuth telluride nanostructures fabricated by electrodeposition within flexible templates

Authors: Cervino-Solana, M.J. Ramirez-Peral, M.S. Martín-González, O. Caballero-Calero. Article. Heliyon Date: August 30, 2024 Doi: doi.org/10.1016/j.heliyon.2024.e36114 Abstract: Bismuth telluride, a highly efficient thermoelectric material, stands out for applications around room temperature in wearable devices. By harnessing the thermal gradient established between the human body and ambient temperature, we can generate useable electricity. Notably, bismuth telluride

Artur Turo2024-12-14T13:17:50+01:00August 30th, 2024|Categories: Publications 2024|Tags: bismuth telluride, Electrodeposition, Nanostructures, Thermoelectricity|

Metallic Coatings Boost the Cooling Power of Nanoporous Alumina
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Metallic Coatings Boost the Cooling Power of Nanoporous Alumina
Publications 2024

Metallic Coatings Boost the Cooling Power of Nanoporous Alumina

Authors: V. Alba Díaz-Lobo, Marisol Martin-Gonzalez, Qimeng Song, Ángel Morales-Sabio, Markus Retsch, Cristina V. Manzano Article. ACS Applied Engineering Materials Date: 29 July 2024 Doi:doi.org/10.1021/acsaenm.4c00245 Abstract: Passive daytime radiative cooling (PDRC) has emerged as a promising strategy to mitigate the increasing impact of heat waves. However, achieving effective PDRCs requires cost-effective, ecofriendly, and industrially scalable

Artur Turo2024-10-17T16:14:29+02:00July 29th, 2024|Categories: Publications 2024|Tags: anodic aluminum oxide (AAO), Emissivity, metal coating, passive radiative cooling, temperature reduction, thermal emitters|

Ketan Lohani ha conseguido un Contrato Juan de la Cierva 2023
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Ketan Lohani ha conseguido un Contrato Juan de la Cierva 2023
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Ketan Lohani ha conseguido un Contrato Juan de la Cierva 2023

Las ayudas Juan de la Cierva tienen como finalidad fomentar la incorporación de jóvenes, en posesión del grado de doctor, con objeto de que completen su formación investigadora postdoctoral en centros de I+D españoles. Las personas participantes deben cumplir el requisito de poseer el título de doctor y haberlo obtenido entre el 1 de

Artur Turo2025-04-17T11:33:16+02:00July 7th, 2024|Categories: Group News|

Performance and Humidity Impact of Cellulose-Derivative Networks in All-day Passive Radiative Cooling
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Performance and Humidity Impact of Cellulose-Derivative Networks in All-day Passive Radiative Cooling
Publications 2024

Performance and Humidity Impact of Cellulose-Derivative Networks in All-day Passive Radiative Cooling

Authors: V. Manzano Cristina; Díaz-Lobo Alba; Gil-García Marta; Rodríguez de la Fuente Óscar; Morales-Sabio Ángel; Martín-González Marisol. Article. Advanced Optical Materials Date: 03 July 2024 Doi: doi.org/10.1002/adom.202400551 Abstract: All-day passive daytime radiative coolers (PDRC) offer a promising solution for energy-free cooling of buildings and devices. This study investigates the use of various cellulose-derivative networks to

Artur Turo2024-08-07T12:18:58+02:00July 3rd, 2024|Categories: Publications 2024|Tags: Cellulose, Dampness's effect, Emissivity, Hydrophilicity, Network Radiative coolers, Reflectance|

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