2026 Jorma Hölsä: Materials Science Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	57	8051	7785	38	35	229	10100
Chemistry	57	11256	10153	63	54	226	10070

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

8051

7785

229

10100

Chemistry

11256

10153

226

10070

Materials Science

D-Index

Citations

10100

World Ranking

8051

National Ranking

Chemistry

D-Index

Citations

10070

World Ranking

11256

National Ranking

Overview

Jorma Hölsä is affiliated with the University of Turku in Finland. Their research primarily centers on materials science, with significant contributions in subfields such as materials chemistry, ceramics and composites, radiation, electrical and electronic engineering, and electronic, optical, and magnetic materials.

Their main topics of work include:

Luminescence Properties of Advanced Materials
Glass properties and applications
Radiation Detection and Scintillator Technologies
Perovskite Materials and Applications
Crystal Structures and Properties
Solid-state spectroscopy and crystallography

Jorma Hölsä has authored several recent papers that contribute to these fields, including:

Effect of annealing temperature on persistent luminescence of Y₃Al₂Ga₃O₁₂:Cr³⁺ co-doped with Ce³⁺ and Pr³⁺ (2020, Optical Materials)
Persistent luminescence excitation spectroscopy of BaAl₂O₄:Eu²⁺,Dy³⁺ (2020, Physica B Condensed Matter)
Emission Quenching and First Evidence of Tb³⁺-to-As⁵⁺ Charge Transfer in Terbium(III) Ion-Doped YV_xAs_1-xO₄ Solid-State Solution (2020, The Journal of Physical Chemistry C)
Energy trapping to substitutional and charge compensation defects in persistent luminescent BaAl₂O₄:Tb³⁺ (2024, Physica Scripta)

Frequently collaborating with other researchers, Hölsä has worked alongside:

H.C. Swart
Zhengfa Dai
Vitalii Boiko
Karina Grzeszkiewicz
Marta Markowska

The scientist's publications appear in venues such as:

Optical Materials
Physica Scripta
Physica B Condensed Matter
The Journal of Physical Chemistry C

Best Publications

Persistent luminescence phenomena in materials doped with rare earth ions

T. Aitasalo;P. Dereń;J. Hölsä;H. Jungner

642
Citations
Thermoluminescence study of persistent luminescence materials: Eu2+- and R3+-doped calcium aluminates, CaAl2O4:Eu2+,R3+.

Tuomas Aitasalo;Jorma Hölsä;Högne Jungner;Mika Lastusaari

496
Citations
Persistent Luminescence Beats the Afterglow: 400 Years of Persistent Luminescence

Jorma Hölsä

293
Citations
Vacuum-ultraviolet spectroscopy and quantum cutting for Gd 3+ in LiYF 4

R. T. Wegh;H. Donker;A. Meijerink;R. J. Lamminmäki

283
Citations
Persistent luminescence of Eu2+ doped alkaline earth aluminates, MAl2O4:Eu2+

Jorma Hölsä;Jorma Hölsä;Högne Jungner;Mika Lastusaari;Janne Niittykoski

280
Citations
Persistent luminescence mechanisms: human imagination at work

Hermi F. Brito;Jorma Hölsä;Taneli Laamanen;Mika Lastusaari

280
Citations
Thermoluminescence and Kinetics of Persistent Luminescence of Vacuum-Sintered Tb3+-Doped and Tb3+,Ca2+-Codoped Lu2O3 Materials

Joanna Trojan-Piegza;Janne Niittykoski;Jorma Hölsä;Eugeniusz Zych

269
Citations
Extending Dieke's diagram

René T Wegh;Andries Meijerink;Ralf-Johan Lamminmäki;Jorma Hölsä

221
Citations
Mechanisms of persistent luminescence in Eu2+, RE3+ doped alkaline earth aluminates

Tuomas Aitasalo;Jorma Hölsä;Jorma Hölsä;Högne Jungner;Mika Lastusaari

194
Citations
Properties of aluminium oxide thin films deposited by reactive magnetron sputtering

Kari Koski;Jorma Hölsä;Pierre Juliet

190
Citations
Free ion and crystal field parameters for REOCl : Eu3+

Jorma Hölsä;Pierre Porcher

173
Citations
Discovery of the Persistent Luminescence Mechanism of CdSiO3:Tb3+

Lucas C.V. Rodrigues;Lucas C.V. Rodrigues;Hermi F. Brito;Jorma Hölsä;Jorma Hölsä;Roberval Stefani

167
Citations
Role of defect states in persistent luminescence materials

Jorma Hölsä;Tuomas Aitasalo;Högne Jungner;Mika Lastusaari

161
Citations
Effect of temperature on the luminescence processes of SrAl2O4:Eu2+

Tuomas Aitasalo;Jorma Hölsä;Högne Jungner;Jean-Claude Krupa

122
Citations
Sol–gel processed Eu2+-doped alkaline earth aluminates

Tuomas Aitasalo;Jorma Hölsä;Jorma Hölsä;Högne Jungner;Mika Lastusaari

116
Citations
Eu3+ doped rare earth orthoborates, RBO3 (R = Y, La and Gd), obtained by combustion synthesis

Mika Tukia;Jorma Hölsä;Mika Lastusaari;Janne Niittykoski

116
Citations
The Bologna Stone: history's first persistent luminescent material

Mika Lastusaari;Taneli Laamanen;Marja Malkamäki;Kari O Eskola

114
Citations
Eu2+ doped calcium aluminates prepared by alternative low temperature routes

T. Aitasalo;J. Hölsä;Högne Jungner;M. Lastusaari

111
Citations
Crystal field effects in REOBr:Eu3+

Jorma Hölsä;Pierre Porcher

111
Citations
Persistent luminescence of Eu2+ and Dy3+ doped barium aluminate (BaAl2O4:Eu2+,Dy3+) materials.

Roberval Stefani;Lucas Carvalho Veloso Rodrigues;Carlos Alberto Alves de Carvalho;Carlos Alberto Alves de Carvalho;Maria Claudia França da Cunha Felinto

104
Citations