| Conţinutul numărului revistei |
| Articolul precedent |
| Articolul urmator |
 |
 790 10 |
| Ultima descărcare din IBN: 2023-11-12 17:31 |
| Căutarea după subiecte similare conform CZU |
| [544.032+621.315.592]:004 (1) |
| Proprietăţi şi fenomene fizice. Constante. Efecte care acţionează asupra stării şi proprietăţilor materiei (10) |
| Electrotehnică (1153) |
| Știința și tehnologia calculatoarelor. Calculatoare. Procesarea datelor (4161) |
 SM ISO690:2012BRANISTE, Tudor, DRAGOMAN, Mircea L., ZHUKOV, Sergey, ALDRIGO, Martino, CIOBANU, Vladimir, IORDANESCU, Sergiu A., ALYABYEVA, L., FUMAGALLI, Francesco, CECCONE, Giacomo, RAEVSKY, Simion, SCHUTT, Fabian, ADELUNG, Rainer, COLPO, Pascal, GORSHUNOV, Boris, TIGINYANU, Ion. Aero-Ga2o3 nanomaterial electromagnetically transparent from microwaves to terahertz for internet of things applications. In: Nanomaterials, 2020, vol. 10, p. 0. ISSN 2079-4991. DOI: https://doi.org/10.3390/nano10061047 |
| EXPORT metadate: Google Scholar Crossref CERIF DataCite Dublin Core |
  Nanomaterials |
|
| Volumul 10 / 2020 / ISSN 2079-4991 /ISSNe 2079-4991 | |
|
|
| DOI:https://doi.org/10.3390/nano10061047 | |
| CZU: [544.032+621.315.592]:004 | |
| Pag. 0-0 | |
 Descarcă PDF |
|
| Rezumat | |
In this paper, fabrication of a new material is reported, the so-called Aero-Ga2O3 or Aerogallox, which represents an ultra-porous and ultra-lightweight three-dimensional architecture made from interconnected microtubes of gallium oxide with nanometer thin walls. The material is fabricated using epitaxial growth of an ultrathin layer of gallium nitride on zinc oxide microtetrapods followed by decomposition of sacrificial ZnO and oxidation of GaN which according to the results of X-ray diffraction (XRD) and X-ray photoemission spectroscopy (XPS) characterizations, is transformed gradually in β-Ga2O3 with almost stoichiometric composition. The investigations show that the developed ultra-porous Aerogallox exhibits extremely low reflectivity and high transmissivity in an ultrabroadband electromagnetic spectrum ranging from X-band (8–12 GHz) to several terahertz which opens possibilities for quite new applications of gallium oxide, previously not anticipated. |
|
| Cuvinte-cheie Aero-Ga2O3, Electromagnetically transparent nanomaterial, Extremely low reflectivity, Ultra-porous nanomaterial, X-band and terahertz frequencies |
|
|
Crossref XML Export
<?xml version='1.0' encoding='utf-8'?> <doi_batch version='4.3.7' xmlns='http://www.crossref.org/schema/4.3.7' xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance' xsi:schemaLocation='http://www.crossref.org/schema/4.3.7 http://www.crossref.org/schema/deposit/crossref4.3.7.xsd'> <head> <doi_batch_id>ibn-106508</doi_batch_id> <timestamp>1713863482</timestamp> <depositor> <depositor_name>Information Society Development Instiute, Republic of Moldova</depositor_name> <email_address>idsi@asm.md</email_address> </depositor> </head> <body> <journal> <journal_metadata> <full_title>Nanomaterials</full_title> <issn media_type='print'>20794991</issn> </journal_metadata> <journal_issue> <publication_date media_type='print'> <year>2020</year> </publication_date> <issue></issue> </journal_issue> <journal_article publication_type='full_text'><titles> <title>Aero-Ga2o3 nanomaterial electromagnetically transparent from microwaves to terahertz for internet of things applications</title> </titles> <contributors> <person_name sequence='first' contributor_role='author'> <given_name>Fiodor</given_name> <surname>Branişte</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Mircea L.</given_name> <surname>Dragoman</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Sergey</given_name> <surname>Zhukov</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Martino</given_name> <surname>Aldrigo</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Vladimir</given_name> <surname>Ciobanu</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Sergiu A.</given_name> <surname>Iordanescu</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>L.</given_name> <surname>Alyabyeva</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Francesco</given_name> <surname>Fumagalli</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Giacomo</given_name> <surname>Ceccone</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Simion</given_name> <surname>Raevschi</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Fabian</given_name> <surname>Schutt</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Rainer</given_name> <surname>Adelung</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Pascal</given_name> <surname>Colpo</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Boris</given_name> <surname>Gorshunov</surname> </person_name> <person_name sequence='additional' contributor_role='author'> <given_name>Ion</given_name> <surname>Tighineanu</surname> </person_name> </contributors> <publication_date media_type='print'> <year>2020</year> </publication_date> <pages> <first_page>0</first_page> <last_page>0</last_page> </pages> <doi_data> <doi>10.3390/nano10061047</doi> <resource>http://www.crossref.org/</resource> </doi_data> </journal_article> </journal> </body> </doi_batch>
|
|
|
