Cargando…
Low-Pressure Deuterium Storage on Palladium-Coated Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic Battery Applications
[Image: see text] Deuterium (D(2)(g)) storage of Pd-coated Ti ultra-thin films at relatively low pressures is fine-tuned by systematically controlling the thicknesses of the catalytic Pd overlayer, underlying Ti ultra-thin film domain, D(2)(g) pressure (P(D2)), duration of D(2)(g) exposure, and the...
| Autores principales: | , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
American Chemical Society
2023
|
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10472331/ https://www.ncbi.nlm.nih.gov/pubmed/37589336 http://dx.doi.org/10.1021/acsami.3c06925 |
| _version_ | 1785100052939669504 |
|---|---|
| author | Ulusoy Ghobadi, Turkan Gamze Kocak, Yusuf Jalal, Ahsan Altinkaynak, Yagmur Celik, Gulsah Semiz, Tolga Cakir, Cihan Butun, Bayram Ozbay, Ekmel Karadas, Ferdi Ozensoy, Emrah |
| author_facet | Ulusoy Ghobadi, Turkan Gamze Kocak, Yusuf Jalal, Ahsan Altinkaynak, Yagmur Celik, Gulsah Semiz, Tolga Cakir, Cihan Butun, Bayram Ozbay, Ekmel Karadas, Ferdi Ozensoy, Emrah |
| author_sort | Ulusoy Ghobadi, Turkan Gamze |
| collection | PubMed |
| description | [Image: see text] Deuterium (D(2)(g)) storage of Pd-coated Ti ultra-thin films at relatively low pressures is fine-tuned by systematically controlling the thicknesses of the catalytic Pd overlayer, underlying Ti ultra-thin film domain, D(2)(g) pressure (P(D2)), duration of D(2)(g) exposure, and the thin film temperature. Structural properties of the Ti/Pd nanofilms are investigated via XRD, XPS, AFM, SEM, and TPD to explore new structure-functionality relationships. Ti/Pd thin film systems are deuterated to obtain a D/Ti ratio of up to 1.53 forming crystallographically ordered titanium deuteride (TiD(x)) phases with strong Ti(x+)–D(y–) electronic interactions and high thermal stability, where >90% of the stored D resides in the Ti component, thermally desorbing at >460 °C in the form of D(2)(g). Electronic interaction between Pd and D is weak, yielding metallic (Pd(0)) states where D storage occurs mostly on the Pd film surface (i.e., without forming ordered bulk PdD(x) phases) leading to the thermal desorption of primarily DOH(g) and D(2)O(g) at <265 °C. D-storage typically increases with increasing Ti film thickness, P(D2), T, and t, whereas D-storage is found to be sensitive to the thickness and the surface roughness of the catalytic Pd overlayer. Optimum Pd film thickness is determined to be 10 nm providing sufficient surface coverage for adequate wetting of the underlying Ti film while offering an appropriate number of surface defects (roughness) for D immobilization and a relatively short transport pathlength for efficient D diffusion from Pd to Ti. The currently used D-storage optimization strategy is also extended to a realistic tritium-based betavoltaic battery (BVB) device producing promising β-particle emission yields of 164 mCi/cm(2), an open circuit potential (V(OC)) of 2.04 V, and a short circuit current (I(SC)) of 7.2 nA. |
| format | Online Article Text |
| id | pubmed-10472331 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | American Chemical Society |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-104723312023-09-02 Low-Pressure Deuterium Storage on Palladium-Coated Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic Battery Applications Ulusoy Ghobadi, Turkan Gamze Kocak, Yusuf Jalal, Ahsan Altinkaynak, Yagmur Celik, Gulsah Semiz, Tolga Cakir, Cihan Butun, Bayram Ozbay, Ekmel Karadas, Ferdi Ozensoy, Emrah ACS Appl Mater Interfaces [Image: see text] Deuterium (D(2)(g)) storage of Pd-coated Ti ultra-thin films at relatively low pressures is fine-tuned by systematically controlling the thicknesses of the catalytic Pd overlayer, underlying Ti ultra-thin film domain, D(2)(g) pressure (P(D2)), duration of D(2)(g) exposure, and the thin film temperature. Structural properties of the Ti/Pd nanofilms are investigated via XRD, XPS, AFM, SEM, and TPD to explore new structure-functionality relationships. Ti/Pd thin film systems are deuterated to obtain a D/Ti ratio of up to 1.53 forming crystallographically ordered titanium deuteride (TiD(x)) phases with strong Ti(x+)–D(y–) electronic interactions and high thermal stability, where >90% of the stored D resides in the Ti component, thermally desorbing at >460 °C in the form of D(2)(g). Electronic interaction between Pd and D is weak, yielding metallic (Pd(0)) states where D storage occurs mostly on the Pd film surface (i.e., without forming ordered bulk PdD(x) phases) leading to the thermal desorption of primarily DOH(g) and D(2)O(g) at <265 °C. D-storage typically increases with increasing Ti film thickness, P(D2), T, and t, whereas D-storage is found to be sensitive to the thickness and the surface roughness of the catalytic Pd overlayer. Optimum Pd film thickness is determined to be 10 nm providing sufficient surface coverage for adequate wetting of the underlying Ti film while offering an appropriate number of surface defects (roughness) for D immobilization and a relatively short transport pathlength for efficient D diffusion from Pd to Ti. The currently used D-storage optimization strategy is also extended to a realistic tritium-based betavoltaic battery (BVB) device producing promising β-particle emission yields of 164 mCi/cm(2), an open circuit potential (V(OC)) of 2.04 V, and a short circuit current (I(SC)) of 7.2 nA. American Chemical Society 2023-08-17 /pmc/articles/PMC10472331/ /pubmed/37589336 http://dx.doi.org/10.1021/acsami.3c06925 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/). |
| spellingShingle | Ulusoy Ghobadi, Turkan Gamze Kocak, Yusuf Jalal, Ahsan Altinkaynak, Yagmur Celik, Gulsah Semiz, Tolga Cakir, Cihan Butun, Bayram Ozbay, Ekmel Karadas, Ferdi Ozensoy, Emrah Low-Pressure Deuterium Storage on Palladium-Coated Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic Battery Applications |
| title | Low-Pressure Deuterium
Storage on Palladium-Coated
Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic
Battery Applications |
| title_full | Low-Pressure Deuterium
Storage on Palladium-Coated
Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic
Battery Applications |
| title_fullStr | Low-Pressure Deuterium
Storage on Palladium-Coated
Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic
Battery Applications |
| title_full_unstemmed | Low-Pressure Deuterium
Storage on Palladium-Coated
Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic
Battery Applications |
| title_short | Low-Pressure Deuterium
Storage on Palladium-Coated
Titanium Nanofilms: A Versatile Model System for Tritium-Based Betavoltaic
Battery Applications |
| title_sort | low-pressure deuterium
storage on palladium-coated
titanium nanofilms: a versatile model system for tritium-based betavoltaic
battery applications |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10472331/ https://www.ncbi.nlm.nih.gov/pubmed/37589336 http://dx.doi.org/10.1021/acsami.3c06925 |
| work_keys_str_mv | AT ulusoyghobaditurkangamze lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT kocakyusuf lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT jalalahsan lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT altinkaynakyagmur lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT celikgulsah lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT semiztolga lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT cakircihan lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT butunbayram lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT ozbayekmel lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT karadasferdi lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications AT ozensoyemrah lowpressuredeuteriumstorageonpalladiumcoatedtitaniumnanofilmsaversatilemodelsystemfortritiumbasedbetavoltaicbatteryapplications |