1970
DOI: 10.1149/1.2407765
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Electronic States of Mn2+-Activated Phosphors.

Abstract: The electronic states of Mn2+ are derived from excitation spectra for five green‐emitting phosphors: (i) MgGa2O4:normalMn , (ii) Zn2SiO4:normalMn , (iii) ZnAl2O4:normalMn , (iv) Zn2GeO4:normalMn , and (v) Li2ZnGe3O8:normalMn . Only MgGa2O4:normalMn is found to give a spectrum consistent with octahedral (or tetrahedral) symmetry of Mn2+; the other four phosphors show spectra typical of Mn2+ in symmetry lower than octahedral. Solution of the Tanabe‐Sugano energy matrices using the MgGa2O4:normalMn level… Show more

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Cited by 225 publications
(119 citation statements)
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“…The emission peaks at 509 nm with vlbronic sidebands at 520 and 530 nm. Undoubtly this corresponds to Mn 2+ luminescence as has been found earlier by Palumbo et al (7). Mn 2+ is situated at tetrahedrally coordinated Zn sites with a low crystal field strength, leading to emission with relatively short wavelength.…”
Section: Resultssupporting
confidence: 69%
“…The emission peaks at 509 nm with vlbronic sidebands at 520 and 530 nm. Undoubtly this corresponds to Mn 2+ luminescence as has been found earlier by Palumbo et al (7). Mn 2+ is situated at tetrahedrally coordinated Zn sites with a low crystal field strength, leading to emission with relatively short wavelength.…”
Section: Resultssupporting
confidence: 69%
“…50 In this case, the zinc silicate host lattice absorbs energy and transfers charge efficiently to Mn ions. However, Mn 2+ ions can be directly excited in the wavelength range between 357 and 500 nm.…”
mentioning
confidence: 99%
“…10,49 In particular, the 442 nm line (z2.81 eV) is resonant with the 4 T 2 ( 4 G) energy level. 50 From this level, the excited electrons can relax to the 4 T 1 ( 4 G) state through non-radiative processes and then radiatively decay to the ground state. Therefore, the 442 nm is appropriate and also resonant with the PT3MA absorption peak.…”
mentioning
confidence: 99%
“…Generally, Mn2+-activated phosphors are divided in two classes, those with green emission and those with orange-to-red emission [12]. I n both classes emission arises from the 4T,(4G) level, the energy of which depends strongly on the crystal field strength.…”
Section: Discussionmentioning
confidence: 99%