Eu2+ luminescence in Ca3Si2O7 and spectral widening and tuning of Eu2+ emission color (orangish-red to green) by crystal chemical substitution-Reference-Cited by-同舟云学术

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Eu2+ luminescence in Ca3Si2O7 and spectral widening and tuning of Eu2+ emission color (orangish-red to green) by crystal chemical substitution

Published:2016 Issue:101 Volume:6 Page:98652-98662
ISSN:2046-2069
Container-title:RSC Advances
language:en
Short-container-title:RSC Adv.

Author:

S. Kasturi¹²³⁴,V. Sivakumar¹²³⁴

Affiliation:

1. Department of Chemistry

2. National Institute of Technology

3. Rourkela

4. India

Abstract

The newly synthesized solid solution is capable converting the near UV or blue ray in to orangish-yellow to green.

Funder

Naval Research Board

Publisher

Royal Society of Chemistry (RSC)

Subject

General Chemical Engineering,General Chemistry

Link

http://pubs.rsc.org/en/content/articlepdf/2016/RA/C6RA24258H

Reference44 articles.

1. Solid-State Light Sources Getting Smart

2. Photoluminescent Materials for Solid-State Lighting: State of the Art and Future Challenges

3. Phosphors in phosphor-converted white light-emitting diodes: Recent advances in materials, techniques and properties

4. Plant habitat-conscious white light-emitting devices: Dy3+-emission considerably reduces involvement in photosynthesis

5. Emission red shift and energy transfer behavior of color-tunable KMg4(PO4)3:Eu2+,Mn2+phosphors

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3. Insights into structural and spectroscopic characterization of Sm3+ doped orange rich red emitting CsMgPO4 phosphors;Journal of Rare Earths;2022-12

4. Narrow-Band Red-Emitting Phosphors with High Color Purity, Trifling Thermal and Concentration Quenching for Hybrid White LEDs and Li₃Y₃BaSr(MoO₄)₈:Sm³⁺, Eu³⁺-Based Deep-Red LEDs for Plant Growth Applications;Inorganic Chemistry;2022-01-31

5. Eu²⁺ as the structural probe in the phase transformation of CMSA by site-selective occupancy and adjustable multimode white luminescence in Ca₂(Mg_0.5Al_0.5)(Si_1.5Al_0.5O₇) akermanite based on high-aluminum blast furnace slag;Dalton Transactions;2022

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