| Beijing Time (UTC+8) | |||||
|---|---|---|---|---|---|
| Monday July 26 |
Tuesday July 27 |
Wednesday July 28 |
Thursday July 29 |
Friday July 30 |
|
| 8:30am-9:40am | Room-#1(PL) | Room-#1(PL) | Room-#1(PL) | Room-#1(3,9) | |
| Room-#2(7,12) | |||||
| Room-#3(YIS) | |||||
| Coffee Break & Online Communications (Gather Platform) | |||||
| 10:00am-12:00am | Room-#1(3,12) | Room-#1(1,3) | Room-#1(3,12) | Room-#1(1,3) | |
| Room-#2(1,2) | Room-#2(2,12) | Room-#2(3,6) | Room-#2(2,10) | ||
| Room-#3(5,12) | Room-#3(4,10) | Room-#3(2,10) | Room-#3(YIS) | ||
| Lunch & Online Communications | |||||
| 2:00pm-3:40pm | Hall(YIS) | Room-#1(4,12) | Excursion | Room-#1(3,7) | Room-#1(3,12) |
| Room-#2(1,7) | Room-#2(9,12) | Room-#2(2,8) | |||
| Room-#3(5,12) | Room-#3(YIS) | Room-#3(YIS) | |||
| Coffee Break & Online Communications | Coffee Break & Online Communications | ||||
| 4:00pm-6:00pm | Hall(YIS) | Room-#1(1,3) | Room-#1(1,2) | Room-#1(SL) | |
| Room-#2(4,8) | Room-#2(6,7) | ||||
| Room-#3(SB) | Room-#3(SF) | ||||
| Dinner & Online Communications | |||||
| 7:00pm | Poster | Banquet | Poster | Hall(PL) | |
| 7:30pm-8:00pm | OPENING CEREMONY | ||||
| 8:10-8:50pm | Hall(PL) | ICL PRIZE CEREMONY | |||
| 8:50pm-9:30pm | CLOSING CEREMONY & INVITATION TO NEXT ICL | ||||
Besides a big lecture hall, there are three parallel meeting rooms, represented by #1, #2 and #3, respectively
The numbers in the parentheses refer to the codes listed in the Conference Topics.
| Abbreviations in the schedule | |
|---|---|
| YIS | Young Investigator Symposium |
| PL | Plenary Lecture |
| IL | Invited Lecture |
| O | Oral Presentation |
| PP | Poster Presentation |
| SB | Symposium for George Blasse |
| SF | Symposium for Sergey Feofilov |
| SL | Sponsors Lecture |
| Monday, July 26, 2021 | |||
|---|---|---|---|
| 2:00pm-3:30pm | YIS-IL-1 | Chuanjiang Qin | Chair: Fujun Zhang |
| YIS-IL-2 | Yizheng Jin | ||
| YIS-IL-3 | Jumpei Ueda | ||
| YIS-IL-4 | Erving Ximendes | ||
| Chair: Yizheng Jin | |||
| 3:40pm-5:10pm | YIS-IL-5 | Qing Dai | |
| YIS-IL-6 | Jonas Joos | ||
| YIS-IL-7 | Caofeng Pan | ||
| YIS-IL-8 | Fujun Zhang | ||
| 5:10pm-6:00pm | Sponsors Lecture: Wenjie Sun, Senior Editor of Nature Nanotechnology | Chair: Caofeng Pan | |
| 7:30pm-7:55pm | OPENING CEREMONY (Haiyang Xu, Yichun Liu, Andries Meijerink) | ||
| 8:00pm-8:35pm | PL-1 | Luís Carlos | Chair: Xueyuan Chen |
| 8:35pm-9:10pm | PL-2 | Ru-Shi Liu | |
| Tuesday, July 27, 2021 | ||||||
|---|---|---|---|---|---|---|
| 8:30am-9:05am | PL-3 | Wei Huang | Chair: Junbiao Peng | |||
| 9:05am-9:40am | PL-4 | Setsuhisa Tanabe | ||||
| Meeting Room #1 Chair: Zhiguo Xia |
Meeting Room #2 Chair: Jianxin Tang |
Meeting Room #3 Chair: Dayang Wang |
||||
| 10:00am-11:40am | IL-1 | Lingdong Sun | IL-2 | Xueyuan Chen | IL-4 | Zhuang Liu |
| O-001 | Liangliang Zhang | IL-3 | Junbiao Peng | IL-5 | Yinghui Wang | |
| O-002 | Xikun Zou | O-006 | Jun Yin | O-011 | Guanying Chen | |
| O-003 | Yawei Liu | O-007 | Shi Ye | O-012 | Pengpeng Lei | |
| O-004 | Yuhong Zhang | O-008 | Yan Xu | O-013 | Kai Sun | |
| O-005 | Fernanda Hediger Borges | O-009 | Min Lu | O-014 | Piaoping Yang | |
| O-010 | Bo Wu | O-015 | Chenguang Wang | |||
| Meeting Room #1 Chair: Lingdong Sun |
Meeting Room #2 Chair: Shengye Jin |
Meeting Room #3 Chair: Yinghui Wang |
||||
| 2:00pm-3:40pm | IL-6 | Niko Hildebrandt | IL-7 | Qihua Xiong | IL-8 | Jongwook Kim |
| O-016 | Carlos DS Brites | O-021 | Lucía Labrador-Páez | O-025 | Quan Thi Hong Vu | |
| O-017 | Ilya Kolesnikov | O-022 | Tushar Debnath | O-026 | Fernando Maturi | |
| O-018 | Georges Boulon | O-023 | Takeshi Koyama | O-027 | Yingli Shen | |
| O-019 | Lukasz Marciniak | O-024 | Dong Sun | O-028 | Karmel de Oliveira Lima | |
| O-020 | Dasheng Lu | |||||
| Meeting Room #1 Chair: Hairong Zheng |
Meeting Room #2 Chair: Xinfeng Liu |
Meeting Room #3 Chair: Andries Meijerink |
||||
| 4:00pm-6:00pm | IL-9 | Zhiguo Xia | IL-10 | Marina Popova | IL-12 | Alok Srivastava |
| O-030 | Florian Baur | IL-11 | Philippe Goldner | IL-13 | Cees Ronda | |
| O-031 | Natalie Raupach | O-036 | Alban Ferrier | IL-14 | Pieter Dorenbos | |
| O-032 | Małgorzata Guzik | O-037 | Javier Fernández-Martínez | IL-15 | Martin Nikl | |
| O-033 | Giacomo B. F. Bosco | O-038 | Diana Serrano | IL-16 | Jun Lin | |
| O-034 | Karol Lemanski | O-039 | Federico Chiossi | IL-17 | Philippe Boutinaud | |
| O-035 | Pengpeng Dai | O-040 | Teng Zheng | IL-18 | Andries Meijerink | |
| 7:00pm-9:30pm | PP-001——PP-040 | |||||
| Wednesday, July 28, 2021 | ||||||
|---|---|---|---|---|---|---|
| 8:30am-9:05am | PL-5 | Xiaogang Peng | Chair: Lixiang Wang | |||
| 9:05am-9:40am | PL-6 | Peter J. Pauzauskie | ||||
| Meeting Room #1 Chair: Mingmei Wu |
Meeting Room #2 Chair: Dong Sun |
Meeting Room #3 Chair: Guangshan Zhu |
||||
| 10:00am-11:40am | IL-19 | Rongjun Xie | IL-20 | Bingsuo Zou | IL-22 | Lixiang Wang |
| O-041 | Isela Padilla-Rosales | IL-21 | Shengye Jin | IL-23 | Hongbing Fu | |
| O-042 | Fábio José Caixeta | O-047 | Tahere Hemati | O-052 | Israel P. Assunção | |
| O-043 | Baojiu Chen | O-048 | Yinglin Wang | O-053 | Duclerc F Parra | |
| O-044 | Oscar Malta | O-049 | Gaoling Yang | O-054 | Jianan Dai | |
| O-045 | Lei Chen (陈磊) | O-050 | Jiejun Ren | O-055 | Yue-Feng Liu | |
| O-046 | Zhen Song | O-051 | Xiaopeng Zhou | |||
| Thursday, July 29, 2021 | ||||||
|---|---|---|---|---|---|---|
| 8:30am-9:05am | PL-7 | Chunhua Yan | Chair: Lixiang Wang | |||
| 9:05am-9:40am | PL-8 | Bo Shen | ||||
| Meeting Room #1 Chair: Jiahua Zhang |
Meeting Room #2 Chair: Kaifeng Wu |
Meeting Room #3 Chair: Guoqiang Li |
||||
| 10:00am-11:40am | IL-24 | Takatoshi Seto | IL-25 | Yuhua Wang | IL-26 | Yong Zhang |
| O-056 | Sisi Liang | O-061 | Dingding Song | IL-27 | Xiulai Xu | |
| O-057 | Biao Zhong | O-062 | Peng Feng | IL-28 | Lei Liu | |
| O-058 | Zhongxian Qiu | O-063 | Yang Li | O-066 | Yuechao Wang | |
| O-059 | Lei Chen (陈雷) | O-064 | Yanjie Liang | O-067 | Gaoqiang Deng | |
| O-060 | Xinglin Peng | O-065 | Xiyu Zhao | O-068 | Gangyi Zhang | |
| Meeting Room #1 Chair: Takatoshi Seto |
Meeting Room #2 Chair: Chonggeng Ma |
Meeting Room #3 Chair: Meng Zhou |
||||
| 2:00pm-3:40pm | IL-29 | Jiahua Zhang | IL-30 | Mikhail Brik | YIS-IL-009 | Qian Sun |
| O-069 | Hong Zhang | O-074 | Michael Reid | YIS-IL-010 | Guoqiang Li | |
| O-070 | Bartosz Bondzior | O-075 | Dawei Wen | YIS-IL-011 | Heedae Kim | |
| O-071 | Matthias Adlung | O-076 | Markus Suta | YIS-O-001 | Yizhi Zhu | |
| O-072 | A.J. van Bunningen | O-077 | Lixin Ning | YIS-O-002 | Zhenhua Zhang | |
| O-073 | Jur de Wit | |||||
| Meeting Room #1 Chair: Xiao Wang |
Meeting Room #2 Chair: Yuhua Wang |
Meeting Room #3 Chair: Marco Bettinelli |
||||
| 4:00pm-6:00pm | IL-31 | Zhenhua Ni | IL-33 | Feng Liu | IL-34 | Andries Meijerink |
| IL-32 | Xiaodong Pi | O-083 | Simon Michels | IL-35 | Xiao-Jun Wang | |
| O-078 | Lucheng Peng | O-084 | Teresa Delgado | IL-36 | Andrey V. Naumov | |
| O-079 | Zijun Wang | O-085 | Vitalii Boiko | IL-38 | Hairong Zheng | |
| O-080 | Zhu Meng | O-086 | Ang Feng | IL-39 | Marco Bettinelli | |
| O-081 | Jaime Fernandez-Tejedor | O-087 | Pawel Gluchowski | |||
| O-082 | Sandra Correia | O-088 | Jiaren Du | |||
| 7:00pm-9:30pm | PP-041——PP-080 | |||||
| Friday, July 30, 2021 | ||||||
|---|---|---|---|---|---|---|
| Meeting Room #1 Chair: Haiming Zhu |
Meeting Room #2 Chair: Yuantao Zhang |
Meeting Room #3 Chair: Qian Sun |
||||
| 8:30am-10:10am | IL-40 | William Beers | IL-41 | Xinqiang Wang | YIS-IL-012 | Dechao Yu |
| O-089 | Hairong Zheng | IL-42 | Junwei Luo | YIS-O-004 | Xiaofei Zhao | |
| O-090 | Jun Ou | IL-43 | Bin Liu | YIS-O-005 | Yuxin Pan | |
| O-091 | Anming Li | O-095 | Weizhen Liu | YIS-O-006 | Yan Jiao | |
| O-092 | Hehe Dong | O-096 | Zhenyi Zhang | YIS-O-007 | Shiyou Zhang | |
| O-093 | Luiz Fernando dos Santos | O-097 | Xinglin Wen | YIS-O-008 | Leqi Yao | |
| O-094 | Hongwei Song | |||||
| Meeting Room #1 Chair: Yuxue Liu |
Meeting Room #2 Chair: Junwei Luo |
Meeting Room #3 Chair: Xuyong Yang |
||||
| 10:30am-12:10am | IL-44 | Eva Hemmer | IL-46 | Feng Li | YIS-IL-013 | Chong-Geng Ma |
| IL-45 | Jianxin Tang | IL-47 | Shuling Zhao | YIS-O-009 | Chengrui Wang | |
| O-098 | Loreleyn F. Flores | IL-48 | Linsong Li | YIS-O-010 | Jian Xu | |
| O-099 | Xin Pan | O-103 | Shikao Shi | YIS-O-011 | Yuxiao Fan | |
| O-100 | Yinggang Chen | O-104 | Junping Xiao | YIS-O-012 | Keyla Mirelly Nunes de Souza | |
| O-101 | Shuai Zhang | O-105 | Baowei Zhang | YIS-O-013 | Hao Cai | |
| O-102 | Liling Fei | O-106 | Zixu Zhang | YIS-O-014 | Kamila Maciejewska | |
| Meeting Room #1 Chair: Feng Liu |
Meeting Room #2 Chair: Xinqiang Wang |
Meeting Room #3 Chair: Dechao Yu |
||||
| 2:00pm-4:10pm | IL-49 | Artur Bednarkiewicz | YIS-IL-014 | Xinfeng Liu | YIS-IL-021 | Jizhong Song |
| O-107 | Wieslaw Strek | YIS-IL-015 | Xiao Wang | YIS-O-015 | Fei Li | |
| O-108 | Paulo André | YIS-IL-016 | Junpeng Lv | YIS-O-016 | Jing Zhao | |
| O-109 | Rute Ferreira | YIS-IL-017 | Kaifeng Wu | YIS-O-017 | Przemysław Woźny | |
| O-110 | Marcin Runowski | YIS-IL-018 | Xuyong Yang | YIS-O-018 | Elisa Ortiz Rivero | |
| O-111 | Thomas van Swieten | YIS-IL-019 | Haiming Zhu | YIS-O-019 | Natalia Stopikowska | |
| O-112 | Marcin Szalkowski | YIS-IL-020 | Meng Zhou | YIS-O-020 | Natalia Jurga | |
| O-113 | Shuping Liu | YIS-O-021 | Natalia Miniajluk-Gaweł | |||
| 4:20pm-5:20pm | SL-1 | Springer-Nature | ||||
| SL-2 | Light Sci. Appl. | |||||
| SL-3 | Techcomp | |||||
| 7:00pm-7:35pm | PL-9 | Dayong Jin | Chair: Hongwei Song | |||
| 7:35pm-8:10pm | PL-10 | Claudia Wickleder | ||||
| 8:10pm-8:50pm | ICL PRIZE CEREMONY (Alexander A. Kaplyanskii, Daniel Jaque …) | |||||
| 8:50pm-9:30pm | CLOSING CEREMONY & INVITATION TO NEXT ICL (Yichun Liu, Xiaojun Wang, Yuhong Bai, Daniel Jaque …) | |||||
| NUMBER | NAME | TITLES |
|---|
| PL-1 | Luís Carlos | The shape of water |
| PL-2 | Ru-Shi Liu | Progress in phosphor materials and future perspectives |
| PL-3 | Wei Huang | Recent advances in flexible electronics |
| PL-4 | Setsuhisa Tanabe | Mixed-anion compounds giving unique luminescence characteristics in rare-earths |
| PL-5 | Xiaogang Peng | Photon-assisted up-conversion emission in semiconductor nanocrystals |
| PL-6 | Peter J. Pauzauskie | Cold brownian motion through luminescent solid state refrigeration |
| PL-7 | Chunhua Yan | Lanthanide-doped upconversion nanoparticles: energy transfer modulation and optical imaging |
| PL-8 | Bo Shen | Progress of hetero-epitaxy of AlN on sapphire substrates and the fabrication of deep ultraviolet light emitting diodes |
| PL-9 | Dayong Jin | Advances in highly doped upconversion nanoparticles |
| PL-10 | Claudia Wickleder | Luminescent properties of uncommon divalent lanthanides–fascinating spectroscopic features lead to promising candidates for future applications |
| IL-1 | Lingdong Sun | Upconversion emission from lanthanide nanoparticles: challenges and opportunities |
| IL-2 | Xueyuan Chen | Luminescent all-inorganic perovskite nanocrystals: electronic structure and optical properties |
| IL-3 | Junbiao Peng | Printing electroluminescent materials and devices |
| IL-4 | Zhuang Liu | Biomaterials to boost cancer photo-immunotherapy |
| IL-5 | Yinghui Wang | Lanthanide-doped upconversion nanomaterials: from design to application of theranostics |
| IL-6 | Niko Hildebrandt | Time-resolved FRET with lanthanides, quantum dots, and dyes for brightness-equalized barcoding and biosensing |
| IL-7 | Qihua Xiong | Perovskite semiconductors for photonics and polaritonics |
| IL-8 | Jongwook Kim | Measuring 3D orientation in nanoscale with polarized Eu3+ emission |
| IL-9 | Zhiguo Xia | Structural engineering of Eu2+ doped silicates phosphors for LED applications |
| IL-10 | Marina Popova | First observation of the hyperfine structure and level anticrossings in the luminescence spectra of a crystal |
| IL-11 | Philippe Goldner | Advances and challenges in rare earth doped materials for quantum technologies |
| IL-12 | Alok Srivastava | Research in luminescence inspired by Prof. George Blasse: A tribute |
| IL-16 | Jun Lin | Influence and inspiration of G. Blasse on my research of luminescence materials |
| IL-17 | Philippe Boutinaud | In the wake of George Blasse |
| IL-18 | Andries Meijerink | Remembering George Blasse |
| IL-19 | Rongjun Xie | Searching for new nitride phosphors for emerging applications |
| IL-20 | Bingsuo Zou | The EMP emission in diluted II-VI magnetic semiconductor nanostructures and their application in perovskites |
| IL-21 | Shengye Jin | Carrier transport in 2D perovskite quantum wells |
| IL-22 | Lixiang Wang | Through-space charge transfer polymers |
| IL-23 | Hongbing Fu | Self-assembled organic microcrystal lasers |
| IL-24 | Takatoshi Seto | LED phosphors-nitride, trap center, and high pressure |
| IL-25 | Yuhua Wang | Recent achievements on multi-color long persistent phosphor (LPP) via doping, solid solution and energy |
| IL-26 | Yong Zhang | II-VI based organic-inorganic hybrid nanostructures with greatly enhanced optoelectronic properties, perfectly ordered structures, and long term ambient stability over 15 years |
| IL-27 | Xiulai Xu | Spin polarized photon emission from single quantum dots for chiral photonic circuits |
| IL-28 | Lei Liu | Disorder engineering of oxide semiconductors for more efficient photoelectric conversion |
| IL-29 | Jiahua Zhang | Three-photon process dominated red upconversion emission in Yb3+-Er3+ system |
| IL-30 | Mikhail Brik | Mn4+-doped red phosphors for lighting applications: influence of the local structure on the emission properties |
| IL-31 | Zhenhua Ni | Defect and interface engineering of two dimensional materials |
| IL-32 | Xiaodong Pi | Optoelectronic synaptic devices based on silicon nanocrystals |
| IL-33 | Feng Liu | Up-conversion charging and ambient stimulated emission of storage phosphors |
| IL-34 | Andries Meijerink | Remembering Sergey Feofilov |
| IL-38 | Hairong Zheng | Remembering Dr. Sergey Feofilov |
| IL-39 | Marco Bettinelli | Performing and disseminating luminescence research with Sergey Feofilov |
| IL-40 | William Beers | Far red phosphors for horticulture LED systems |
| IL-41 | Xinqiang Wang | High power deep ultraviolet micro-LEDs |
| IL-42 | Junwei Luo | Theory for silicon-based light emitting |
| IL-43 | Bin Liu | Luminescence properties for III-nitride semiconductor nanostructures and optoelectronic devices with wavelength range from green to ultraviolet |
| IL-44 | Eva Hemmer | Rare-earth-based particles via microwave-assisted synthesis – potential and challenges |
| IL-45 | Jianxin Tang | Synergistical electroluminescent manipulation for efficient blue perovskite light-emitting diodes |
| IL-46 | Feng Li | Doublet emission from light-emitting radical materials and devices |
| IL-47 | Suling Zhao | The inside charge and wavelength management of all-solution OLEDs |
| IL--48 | Linsong Li | Synthesis of nanocrystal core/shell quantum dots for efficient and stable emitters |
| IL--49 | Artur Bednarkiewicz | Photon avalanching at nanoscale: challenges and new possibilities |
| YIS-IL-001 | Chuanjiang Qin | Exciton and crystalline engineering for highly efficient perovskite light-emitting diodes |
| YIS-IL-002 | Yizheng Jin | Towards high-performance solution-processed light-emitting didoes based on quantum dots |
| YIS-IL-003 | Jumpei Ueda | Development of white persistent phosphors by tailoring lanthanide ions and garnet host composition |
| YIS-IL-004 | Erving Ximendes | Advanced in vivo imaging and sensing by using super-bright nanoparticles synthesized by ultrafast photochemistry |
| YIS-IL-005 | Qing Dai | Surface enhanced infrared spectroscopy with two dimensional materials |
| YIS-IL-006 | Jonas Joos | Electron transfer processes in lanthanide-doped materials: Insights from multiconfigurational calculations |
| YIS-IL-007 | Caofeng Pan | Mapping strain/pressure with ZnO nanowire arrays by piezotronic and piezophototronic effect |
| YIS-IL-008 | Fujun Zhang | Recent progress of ternary organic solar cells |
| YIS-IL-009 | Qian Sun | GaN-based blue/UV LEDs and laser diodes grown on Si |
| YIS-IL-010 | Guoqiang Li | Modulating surface-interface structure of InGaN nanorods for efficient photoelectrochemical water splitting |
| YIS-IL-011 | Heedae Kim | Optical coupling process in a single coupled quantum dot |
| YIS-IL-012 | Dechao Yu | Luminescent thermometer for sensitive sensing over a wide temperature range |
| YIS-IL-013 | Chong-Geng Ma | Theoretical spectroscopy of extrinsically and intrinsically defective halide perovskites |
| YIS-IL-014 | Xinfeng Liu | Light-matter interaction in semiconductor materials at miroc/nanoscale |
| YIS-IL-015 | Xiao Wang | Manipulating the light emission of 2D semiconductors by different stacking and heterogeneous integration |
| YIS-IL-016 | Junpeng Lv | T defect-related optical properties and optoelectronic applications of 2D materials |
| YIS-IL-017 | Kaifeng Wu | Upconversion, downconversion and thermally-activated delayed emission sensitized by colloidal semiconductor nanocrystals |
| YIS-IL-018 | Xuyong Yang | Quantum dots/perovskites based light-emitting devices |
| YIS-IL-019 | Haiming Zhu | Exciton luminescence and dynamics in 2D lead halide perovskites |
| YIS-IL-020 | Meng Zhou | Evolution from metallic to molecular state in gold nanoclusters probed by ultrafast spectroscopy |
| YIS-IL-021 | Jizhong Song | Efficient quantum dot light-emitting diodes based on CsPbX3 |
| O-001 | Liangliang Zhang | Cr3+ doped broad band far red/NIR phosphor and its application |
| O-002 | Xikun Zou | A highly efficient and suitable spectral profile Cr3+-doped garnet near-infrared emitting phosphor for regulating photomorphogenesis of plants |
| O-003 | Yawei Liu | Controlled assembly of upconverting nanoparticles for low-threshold microlasers and their imaging in scattering media |
| O-004 | Yuhong Zhang | Enhanced upconversion emission in Er3+: BaWO4 through Gd3+ incorporation and optical thermometry |
| O-005 | Fernanda Hediger Borges | Luminescence thermometry from Er3+/Yb3+ co-doped yttrium niobate with high NIR emission and NIR-to-visible upconversion quantum yields |
| O-006 | Jun Yin | Enhanced color conversion of CsPbBr3 perovskite QDs by surface passivation and plamsonic coupling |
| O-007 | Shi Ye | Mn2+-Mn2+ magnetic coupling effect on photoluminescence revealed by photomagnetism in CsMnCl3 |
| O-008 | Yan Xu | Synergetic effect of tetraethylammonium bromide addition on the morphology evolution and enhanced photoluminescence of rare-earth metal–organic frameworks |
| O-009 | Min Lu | CsPbX3 nanocrystals based highly efficient light-emitting diodes |
| O-010 | Bo Wu | Carrier dynamics in perovskite single crystals for photovoltaic applications |
| O-011 | Guanying Chen | In vivo luminescence nanothermometry: challenges, solutions, and opportunities |
| O-012 | Pengpeng Lei | Bismuth-containing materials for tumor imaging and therapy |
| O-013 | Kai Sun | In vivo continuous glucose monitoring with implantable polymer-dot transducer |
| O-014 | Piaoping Yang | Construction and performance of diagnosis and treatment system based on up-conversion luminescence |
| O-015 | Chenguang Wang | The development of highly photostable organic flurescent probes for STED nanoscopy imaging |
| O-016 | Carlos DS Brites | Lanthanide luminescence to mimic molecular logic and computing through physical inputs |
| O-017 | Ilya Kolesnikov | Dual-center ratiometric YVO4:Nd3+/Eu3+ nanothermometers based on co-doped and mixed phosphors |
| O-018 | Georges Boulon | The radiation-induced darkening and its suppression methods in Yb3+-doped silica laser fibers |
| O-019 | Lukasz Marciniak | A new incarnation of Fe3+: a promising activator for highly sensitive luminescence thermometry |
| O-020 | Dasheng Lu | Experimental insight of single nanoparticle dynamic in water at high temperature by optical tweezers |
| O-021 | Lucía Labrador-Páez | Upconversion nanoparticle kinetics studied by time modulated excitation. |
| O-022 | Tushar Debnath | Coherent phonon dynamics reveals intrinsic lattice anharmonicity in hybrid perovskite nanocrystals |
| O-023 | Takeshi Koyama | Femtosecond photoluminescence from epitaxial graphene on SiC |
| O-024 | Dong Sun | Anisotropic response of type-II Weyl semimetal TaIrTe4 under ultrafast photoexcitation |
| O-025 | Quan Thi Hong Vu | Exploring temperature sensing ability of La2MgTiO6:Er3+ double perovskites using thermally coupled and uncoupled energy levels |
| O-026 | Fernando Maturi | A 10-fold improvement in the performance of luminescent thermometers by combining multiparametric sensing and multiple linear regression |
| O-027 | Yingli Shen | Addressing an unreliable readout: multiparametric sensing overcomes the “tissue issue” of in vivo luminescence thermometry |
| O-028 | Karmel de Oliveira Lima | Er3+, Yb3+: K(RE)3F10 nanoparticles for nanothermometry and theranostic applications |
| O-029 | Jingke Yao | In vivo near-infrared imaging using ternary selenide semiconductor nanoparticles with uncommon crystal structure |
| O-030 | Florian Baur | Optimization of Mn4+ phosphors by sensitization with uranyl [UO2]2+ |
| O-031 | Natalie Raupach | Novel light-emitting micro plastic particles with lanthanide diketonate complexes |
| O-032 | Małgorzata Guzik | Fabrication, structural and spectroscopic characterizations of first translucent ceramics from cubic nano-crystalline La2MoWO9 activated by Nd3+ ions |
| O-033 | Giacomo B. F. Bosco | Photoluminescence properties of SiAlON:Tm3+ gradient coatings grown by DC/RF combinatorial reactive magnetron sputtering |
| O-034 | Karol Lemanski | Spectroscopic properties of Ba2MgWO6 polycrystals and ceramics doped with the Nd3+ ions |
| O-035 | Pengpeng Dai | Self-compensation emissions of defect-induced non-equivalent Eu2+ Sites toward extraordinary thermal stability blue-violet phosphor |
| O-036 | Alban Ferrier | Eu doped Y2O3 films with optimized optical properties for quantum technologies |
| O-037 | Javier Fernández-Martínez | Plasmon-mediated spatial coherence from Nd3+ quantum emitters |
| O-038 | Diana Serrano | Molecule-based coherent light spin interfaces for quantum information processing |
| O-039 | Federico Chiossi | Photon echo and spectral hole burning in 171Yb:LiNbO3 crystal |
| O-040 | Teng Zheng | Nonlinear optical thermometry - a novel thermometric strategy via second harmonic generation (SHG) and upconversion luminescence |
| O-041 | Isela Padilla-Rosales | NIR photon downshifting via host sensitization in Yb3+-doped La2Ti2O7 and BaTi(PO4)2 |
| O-042 | Fábio José Caixeta | Ultra-broadband NIR emission from rare earth triply doped SiO2 Nb2O5 and SiO2-Ta2O5 glass ceramic materials for photonic applications |
| O-043 | Baojiu Chen | Judd-Ofelt calculation strategy for RE3+ doped materials |
| O-044 | Oscar Malta | On the role of the trivalent terbium 7F5 as an energy acceptor level |
| O-045 | Lei Chen | Study on the structure and luminescence properties of Sr-rich (Sr,Ca) AlSiN3:Eu orange phosphors synthesized by slight positive pressure |
| O-046 | Zhen Song | Structural confinement for Cr3+ activators toward efficient NIR phosphors with suppressed concentration quenching |
| O-047 | Tahere Hemati | Oriented growth of lead selenide (PbSe) nanocrystals (NCs) for mid-infrared photonic detector applications |
| O-048 | Yinglin Wang | Interfacial optimization for the high-performance of PbS quantum dot photovoltaics |
| O-049 | Gaoling Yang | Upconversion double quantum dots |
| O-050 | Jiejun Ren | High efficiency and stability quantum dots light emitting diodes based on CsPbBr3@Ce-MOF@SiO2 nanocomposites |
| O-051 | Xiaopeng Zhou | Narrow emitting blue InP/ZnS quantum dots synthesized with highly active precursor |
| O-052 | Israel P. Assunção | A new series of luminescent tetrakis Ln3+-complexes with α-substituted β-diketonate ligands and Na+ as countercation |
| O-053 | Duclerc F Parra | Photoluminescent properties of the polyamide /Eu3+ b-diketonate complex for optical application |
| O-054 | Jianan Dai | Just changing the alkyl chains of fluorophore: achieving longer and stronger deep red/near-infrared emission in crystalline state |
| O-055 | Yue-Feng Liu | Organic light emitting devices based on ultrasmooth and nanostructured electrode |
| O-056 | Sisi Liang | A highly efficient red emitting phosphor with enhanced blue-light absorption through a local crystal field regulation strategy |
| O-057 | Biao Zhong | Exploring Yb3+-doped LuLiF4 single crystal as a new optical cooling candidate below the cryogenic temperature |
| O-058 | Zhongxian Qiu | Achieving dynamic luminescence in ZnS:Mn2+ via fluxing effect |
| O-059 | Lei Chen (陈雷) | Far-red phosphor, LED devices, and intensified gene expression in plant hormone metabolism pathway by the light |
| O-060 | Xinglin Peng | Highly thermal conductive red-emitting AlN-CaAlSiN3:Eu2+ composite phosphor ceramics for high-power laser-driven lighting |
| O-061 | Dingding Song | Research and development of a new type of near-infrared persistent luminescence material |
| O-062 | Peng Feng | Investigation on effect of trap on afterglow process in long wavelength PersL SrMgGe2O6: Mn2+, Sm3+ |
| O-063 | Yang Li | Trap energy upconversion-like near-infrared to nearInfrared light rejuvenateable persistent luminescence |
| O-064 | Yanjie Liang | Ultraviolet persistent phosphors for covert optical tagging |
| O-065 | Xiyu Zhao | Emission from storage phosphors that glow even in bright ambient light |
| O-066 | Yuechao Wang | Enhanced performance of light-emitting diodes based on InP quantum-dot via controlling the charge distribution |
| O-067 | Gaoqiang Deng | Demonstration of N-polar III-nitride tunnel junction LED |
| O-068 | Gangyi Zhang | Broadband red emission from lead-free halide double perovskite single crystals |
| O-069 | Hong Zhang | Nanostructure-assisted quantitative regulation of energy transfer and conversion dynamics of phosphors |
| O-070 | Bartosz Bondzior | Unusual thermal stability and high Eu3+ quantum yield in double-perovskite molybdenites |
| O-071 | Matthias Adlung | Temperature dependent emission of holmium (II) in the NIR range first investigation of Ho2+-luminescence by direct doping with divalent holmium |
| O-072 | A.J. van Bunningen | Spectral broadening and temperature quenching of Cr3+ in LiSc(Si,Ge)2O6 and NaSc(Si,Ge)2O6 solid solutions |
| O-073 | Jur de Wit | Temperature-dependent photoluminescence saturation effects in K2TiF4: Mn4+ |
| O-074 | Michael Reid | Spectroscopy and modelling of rare-earth doped Y2SiO5 |
| O-075 | Dawei Wen | Developing and understanding inorganic phosphors with the help of theoretical calculation |
| O-076 | Markus Suta | The devil is in the details: foundations of and pitfalls in luminescence thermometry |
| O-077 | Lixin Ning | Computational insights into spectral properties of Eu2+-activated β‐Ca3(PO4)2‐type phosphors |
| O-078 | Lucheng Peng | Facet modulation and heterostructure of lead halide perovskite nanocrystals |
| O-079 | Zijun Wang | Monazite LaPO4:Eu3+ nanorods as strongly polarized nano-emitters |
| O-080 | Zhu Meng | Multiexciton emission in colloidal spherical quantum wells under lonizing radiation |
| O-081 | Jaime Fernandez-Tejedor | Photoluminescence imaging of a ferroelectrically driven lateral p-n junction in monolayer MoS2 |
| O-082 | Sandra Correia | Nature-based molecules for luminescent solar concentrators |
| O-083 | Simon Michels | A full thermal model for acoustically induced (thermo) luminescence |
| O-084 | Teresa Delgado | Luminescent spin crossover MOFs |
| O-085 | Vitalii Boiko | Energy traps redistributions in the YAGG:Ce3+,Cr3+,Nd3+ ceramics and their effect on persistent luminescence |
| O-086 | Ang Feng | Extracting trap depth distributions in persistent phosphors with a thermal barrier for charging |
| O-087 | Pawel Gluchowski | Persistent luminescence ceramics |
| O-088 | Jiaren Du | Persistent luminescence at extremely low temperature |
| O-089 | Hairong Zheng | Regulation of the structure and luminescence properties of rare earth doped micro/nano system |
| O-090 | Jun Ou | Tuning the energy transfer efficiency by doping Ce3+ Ions on NaYF4: Yb, Tm nanocrystals |
| O-091 | Anming Li | Solid solution Na(Gd/La)(MoO4)2:Yb3+/Er3+ upconversion nanocrystals with simultaneously enhanced photothermal conversion efficiency and luminescence intensity |
| O-092 | Hehe Dong | Study of the spectral properties of Er-Yb-doped high-phosphorus silica glass |
| O-093 | Luiz Fernando dos Santos | In vitro assays and nanothermometry investigations of infrared-to-visible upconversion of nanocrystalline Y2O3: Er3+/Yb3+ nanoparticles for biological applications |
| O-094 | Hongwei Song | Quantum cutting emission and local field enhancement of Yb3+ |
| O-095 | Weizhen Liu | Manipulation of luminescence properties of two-dimensional transition metal dichalcogenides |
| O-096 | Zhenyi Zhang | Plasmonic nano-heterostructure photocatalysts |
| O-097 | Xinglin Wen | Room temperature valley hall effect enabled by directional surface plasmon propagation |
| O-098 | Loreleyn F. Flores | Improving the near-infrared Yb3+ emission in carbon-silica systems |
| O-099 | Xin Pan | Research progress on whitlockite-type mineral phosphors towards high-efficiency phosphors evolution |
| O-100 | Yinggang Chen | Regulation of spectral properties of Nd-doped silica glass |
| O-101 | Shuai Zhang | Structural design enables highly-efficient green emission with preferable blue light excitation from zero-dimensional manganese (II) hybrids |
| O-102 | Liling Fei | Near-unity red Mn2+ photoluminescence quantum yield of doped CsPbCl3 nanocrystals with Mg incorporation |
| O-103 | Shikao Shi | Fabrication of the hybrid layered rare earth hydroxides with enhanced luminescence and photofunctional performances |
| O-104 | Junping Xiao | Study of the dependence of photoluminescence on the crystallinity in solvated fullerenes |
| O-105 | Baowei Zhang | Surface Chemistry of Phosphonate capped CsPbBr3 nanocrystals |
| O-106 | Zixu Zhang | Dot−wire−platelet−cube: step growth and morphological control in perovskite nanocrystals |
| O-107 | Wieslaw Strek | Laser induced emission and photocurrent of Yb3+:Y2Si2O7 nanocrystalline ceramics |
| O-108 | Paulo André | Luminescent smart labels unclonability and authentication through physical unclonable functions |
| O-109 | Rute Ferreira | Luminescent smart labels based on QR codes for temperature sensing and authentication |
| O-110 | Marcin Runowski | Luminescence pressure sensing in the vacuum and high-pressure ranges using lanthanide-based luminescent thermometers-manometers |
| O-111 | Thomas van Swieten | A new Ho3+-based thermometer for sensitive sensing over a wide temperature range |
| O-112 | Marcin Szalkowski | Photon avalanching in Tm3+-doped LiYF4 nano-, micro- and bulk crystals |
| O-113 | Shuping Liu | Defect engineering of Eu:Y2O3 nanocrystals for optical quantum technologies |
| YIS-O-001 | Yizhi Zhu | Ultrafast photocarrier dynamics competition in surface and bulk region of CsPbBr3 microplates |
| YIS-O-002 | Zhenhua Zhang | In-situ, quantitative and gradient of perovskite composition regulation |
| YIS-O-003 | Yue Wang | Photophysics and microlasers developed from metal-halide perovskite nanocrytals |
| YIS-O-004 | Xiaofei Zhao | The regulation strategy for surface enhanced Raman spectrum |
| YIS-O-005 | Yuxin Pan | Yb,Ho:(La0.1Y0.9)2O3 ceramics for thermometric applications based on the upconversion emission |
| YIS-O-006 | Yan Jiao | Influence of Ce3+ ion on optical properties and radiation resistance in Ce3+/Tm3+-co-doped alumino-silicate glasses |
| YIS-O-007 | Shiyou Zhang | Eu2+-doped nitride and oxynitride phosphors |
| YIS-O-008 | Leqi Yao | Tunable near-infrared emission without intensity loss in high efficiency Ga4GeO8:Cr3+ phosphor |
| YIS-O-009 | Chengrui Wang | Emission from ultraviolet phosphor LuAl3B4O12:Bi3+,Gd3+ stimulated by ambient temperature and ambient lighting |
| YIS-O-010 | Jian Xu | Strategies to approach true quasi-point light source for high-luminance phosphor-converted laser lighting |
| YIS-O-011 | Yuxiao Fan | Ion-exchanged LTA zeolite derived nepheline-phase NaAlSiO4:Eu2+ ceramic phosphor for laser illumination |
| YIS-O-012 | Keyla Mirelly Nunes de Souza | On the temperature dependence of Judd-Ofelt parameters in the luminescence of trivalent europium complexes |
| YIS-O-013 | Hao Cai | Tunable super-broad NIR luminescence in Cr-doped olivine phosphors towards multifunctional applications |
| YIS-O-014 | Kamila Maciejewska | NIR-NIR Yb3+ luminescence decay based thermometry in REPO4:Yb,Nd nanocrystals |
| YIS-O-015 | Fei Li | Highly stable and spectrally tunable γ-RbxCs1-xPbI3 gradient-alloyed quantum dots in PMMA matrix through a sites engineering |
| YIS-O-016 | Jing Zhao | Two hybrid metal halide nonlinear optical crystals of (TMEDA)MI5 (M = Sb, Bi) with high stability |
| YIS-O-017 | Przemysław Woźny | Photophysical characterization of YVO4: Yb3+, Er3+ nanoluminophores under variable pressure conditions |
| YIS-O-018 | Elisa Ortiz Rivero | Remote cooling via anti-Stokes emission by an optically driven ytterbium-doped NaYF4 microspinner |
| YIS-O-019 | Natalia Stopikowska | Luminescent nanothermometer operating at very high temperature - sensing up to 1000 K with upconverting nanoparticles (Yb3+/Tm3+) |
| YIS-O-020 | Natalia Jurga | Improved ligand-free modification strategy of core/shell NaYF4:Yb3+,Er3+/NaYF4 up-converting nanoparticles |
| YIS-O-021 | Natalia Miniajluk-Gaweł | Microstructural properties of ceramics doped with rare earth ions for use as scintillators |
| PP-001 | Jiancheng Wang | A novel fluorescence emission mechanism for CdZnS solid solution defect anti-electron doping through oxygen adsorption of sulfur vacancies |
| PP-002 | Jixiu Li | Enhanced photostability and photoluminescence of PbI2 via constructing type-I heterostructure with ZnO |
| PP-003 | Ximing Rong | Fabrication and luminescence investigation on ZnO nanorod array/GaN heterojunction |
| PP-004 | Patryk Fałat | Enhanced emission intensity in lanthanide-based materials co-doped with Li+ ions |
| PP-005 | Małgorzata Guzik | Ionic liquid assisted synthesis routes for fabrication of fine nano-crystalline Nd3+-doped LuPO4 optical material |
| PP-006 | Shaobing Wu | Localized surface plasmon enhanced electroluminescence from n-ZnCdO/MgO/p-GaN via decoration of Ag nanoparticles |
| PP-007 | Yifei Xu | Spectroscopic properties and color-tunable emission based on the layered gadolinium terbium/europium hydroxides |
| PP-008 | Duanting Yan | Unraveling structure origin of oxygen ion conduction upon cations co-doping by photoluminescence |
| PP-009 | Zhengkun Fu | Multiplasmons-pumped excited-state absorption and energy transfer upconversion of rare-earth-doped luminescence beyond the diffraction limit |
| PP-010 | Ziwang Zhang | A novel multi-center activated single-component white light-emitting phosphor for deep UV chip-based high color-rendering WLEDS |
| PP-011 | Mykhailo Chaika | Surface-related laser induced white emission phenomenon in transparent Cr:YAG ceramics |
| PP-012 | Karolina Elzbieciak-Piecka | Synthesis and luminescent properties investigation of Cr3+-doped YX3(BO3)4 borates (X=Al3+, Ga3+) |
| PP-013 | Nan Yang | Delayed concentration quenching of luminescence caused by Eu3+-induced phase transition in LaSc3(BO3)4 |
| PP-014 | Yunlin Yang | Structure, luminescence and potential applications of LiSr4(BO3)3:Ln (Ce3+, Eu2+) |
| PP-015 | Yiyi Ou | Temperature-dependent emission color variation of Ce3+, Eu2+ co-doped Sr3B2O6 phosphors |
| PP-016 | Hayra do Prado Labaki | Pr3+/Yb3+ co-doped yttrium tantalates: from tunable white light generation to near-infrared ultra-broadband emission |
| PP-017 | Vítor dos Santos de Souza | White light emission based on GeO2-Nb2O5 rare earth doped under excitation at 980 nm and ultraviolet |
| PP-018 | Kirill Boldyrev | Luminescence of EuxLa1-xFe3(BO3)4 mixed crystals |
| PP-019 | Vladimir Makhov | Specific features of synthesis and luminescence for lithium-aluminum spinels doped with manganese ions |
| PP-020 | Hyeontae Lim | Doping-site dependence of upconversion emission of Ho3+ Ion in CaHfO3 |
| PP-021 | G. López-Pacheco | Insight into the luminescent properties of Yb3+/Bi3+-doped La2Zr2O7: charge transfer state and sensitization |
| PP-022 | Dong Zhu | Synthesis, structure, and high efficiency luminescence of Ba3Y4O9:Gd3+/Eu3+ |
| PP-023 | Liyuan Zou | Luminescent properties of a novel red phosphor activated with Sm3+ |
| PP-024 | Jasmin Schmidt | A novel bright yellow emitting phosphor - Ca3(BN2)I3:Eu2+ |
| PP-025 | Hermi Brito | Eu3+-doped BaMO4 (M: W or Mo) luminescent materials for lighting applications prepared by coprecipitation method |
| PP-026 | Przemyslaw Deren | Double perovskites a new family of highly symmetric oxide matrices |
| PP-027 | Dagmara Stefańska | Temperature behaviour of La2MgTiO6 double perovskite doped with Mn4+ and Cr3+ ions |
| PP-028 | Wojciech Piotrowski | Investigation of thermochromic properties of Sr4Al14O25:Mn4+/Tb3+ for temperature imaging |
| PP-029 | Gemei Cai | Crystal structures and luminescence properties of new phosphate phosphors |
| PP-030 | Joanna Jedoń | Mn4+ luminescence in double-perovskites. The effect of temperature, pressure and chemically induced structural disorder |
| PP-031 | Xiaobo Hu | In situ growth of CsPbX3 NCs in PS nanofibers toward ultrahigh stability as multifunctional supersensitive detectors |
| PP-032 | Jialong Zhao | Enhanced photoluminescence efficiencies of Mn doped perovskite nanocrystals by incorporating neodymium ions |
| PP-033 | Fei Gao | Highly stable and luminescent silica-coated perovskite quantum dots at nanoscale-particle level via nonpolar solvent synthesis |
| PP-034 | Shuya Wang | Conformal transistor arrays based on solution-processed organic crystals |
| PP-035 | Karolina Knieć | The influence of SiO2 shell on the spectroscopic properties of V-doped YAG nanocrystals |
| PP-036 | Kamila Maciejewska | The synthesis and spectroscopic properties of NaYF4 nanoparticles doped with Cr3+ |
| PP-037 | Sunqi Lou | In-situ synthesis of high-efficiency CsPbBr3/CsPb2Br5 composite nanocrystals in aqueous solution |
| PP-038 | Jingwei Zhang | Synthesis and luminescence properties of all-inorganic copper-based perovskite materials |
| PP-039 | Pia Fischer | Luminescence of Sm2+ doped perovskites CsMX3 (M = Ca, Sr; X = Cl, Br, I) – a comparative study |
| PP-040 | Lawrence Munguti | High photodegradation performance of ZnO nanoparticles supported on porous zeolite Na-A: effects of ZnO loading |
| PP-041 | Sarah E. P. Silva | Computational modeling of LMCT energies in europium compounds |
| PP-042 | Sarah Morais Bezerra | Study of the amplification of light emission of lanthanide complexes using of copper and copper oxide nanoparticles |
| PP-043 | Kexin Wang | Dual resonance Raman scattering nanoprobe based on ZnO@ZnS nanocomposite for accurate PSA detection |
| PP-044 | Karolina Trejgis | Effect of the nanoparticles size on thermometric properties of SBR luminescent thermometer in NaYF4:Nd3+ |
| PP-045 | Huihua Song | Four novel lanthanide coordination compounds based on amino acid derivative ligands: construction, characterization and fluorescence chiral recognition performance |
| PP-046 | Leonardo H. C. Francisco | Luminescence of Eu(tta)3(N-picNO)2 (N=2, 3 and 4) doped PMMA films under synchrotron radiation. |
| PP-047 | Xue Li | Enhanced glow of ultraviolet phosphor LuAl3B4O12:Bi3+,Gd3+ in ambient light |
| PP-048 | Israel Ferreira da Costa | Structure and charge transport properties of tris (2-acyl-1,3-indandionate) aluminium(III) complexes |
| PP-049 | Junshan Liu | Enhanced red luminescence of Sm3+ in structural-modified fluorophlogopite and its potential application |
| PP-050 | Jie Ren | Dominant contribution of photosensitizer monomers to upconversion nanoparticles-based photodynamic therapy |
| PP-051 | Min Ying Tsang | Lanthanide doped vis-to-UV upconversion phosphors for bio-application |
| PP-052 | Yanshuang Li | Large area directional mechanical peeling and twisting angle stacking of TMDs |
| PP-053 | Wei Xin | Anisotropic photoelectric response of graphene oxide film high-speed structurized via femtosecond laser |
| PP-054 | Dorah Kawira Muthee | Modification of anatase-rutile mixed-phase properties using Sn4+ doping for photocatalytic brilliant green degradation |
| PP-055 | Jorge Coelho | Adaptation and application of the intramolecular energy transfer to complexes containing transition metals and lanthanides |
| PP-056 | Weiheng Zhong | GaS: a superior optoelectric material |
| PP-057 | Qiushi Feng | High photoluminescence quantum yield achieved in monolayer MoS2 and WS2 via trifluoromethanesulfonic-acid assisted sulfur vacancy repairation and P-type doping |
| PP-058 | Yuanzheng Li | Slow cooling of high-energy C exciton limited by intervalley-transfer in monolayer MoS2 |
| PP-059 | Wenjuan Han | Ultraviolet photoluminescence from Ti3C2Tx MXene quantum dots by controlling the oxidation degree |
| PP-060 | Julian Weiss | M(AlCl4)2:Eu2+ (M = Ca, Sr, Ba) – a promising new class of Eu2+ containing phosphors |
| PP-061 | Federico González García | Insight into the luminescent properties of Yb3+/Bi3+-doped La2Zr2O7: charge transfer state and sensitization |
| PP-062 | Tingxing Shi | Up-converted persistent energy transfer in Gd3Ga5O12:Pr3+,Tb3+ |
| PP-063 | Małgorzata Sójka | Exploiting bandgap engineering to finely control dual-mode Lu2(Ge,Si)O5:Pr3+ luminescent thermometers |
| PP-064 | Baiqi Shao | Engineered anisotropic fluids of rare-earth nanomaterials |
| PP-065 | Shikao Shi | Enhancedred luminescence of Sm3+ in structural-modified fluorophlogopite and its potential application |
| PP-066 | Yanling Wei | Two optical methods of temperature sensing behaviour of upconversion: Yb3+/Ho3+ co-doped KY(MoO4)2 phosphor |
| PP-067 | Yao Jin | Highly fluorescent PDI/SiO2 nanospheres for in situ and real-time latent fingerprint development |
| PP-068 | Hairegu tuxun | Probing and controlling photothermal heat generation in thermoplasmonic heating system |
| PP-069 | Tamires Maira Oliveira | Au-decorated REVO4 particles as potential nanoplatforms to study plasmonic catalysis |
| PP-070 | Sofia Zanella | Reprogrammable and reconfigurable photonic molecular logic gates based on Ln3+ ions |
| PP-071 | Alexander Verevkin | Formalization of adaptive management methods by training based on cognitive models |
| PP-072 | Feng Chen | Upconverting phosphor-based ultraviolet light source |
| PP-073 | Bruno Viana | Upconversion inducing persistent luminescence in NaGdF4:Yb3+,Er3+/ZGSO:Cr3+ nanoparticles |
| PP-074 | Daniel Kujawa | Effect of graphene addition on the thermal and persistent luminescence properties of the Gd2.994Ce0.006Ga3Al2O12 and Gd2.964Ce0.006Dy0.03Ga3 Al2O12 ceramics |
| PP-075 | Maria Claudia Felinto | Synthesis and luminescent properties of three new and bright Eu-tta compounds modified on α-carbon for use as biological markers |
| PP-076 | Hongbo Zhu | Near-infrared photoelectric efficiency study of PbS solar cells enhanced by bimetallic electrode resonance |
| PP-077 | Chunxiang Xu | In-situ, quantitative and gradient of perovskite composition regulation and trap state-mediated carrier dynamics |
| PP-078 | Zhipeng Li | Photoacoustic/magnetic resonance imaging-guided photothermal theranostic nanoagent for glioma |
| PP-079 | Yuwen Jia | High-performance electron-transport-layer-free quantum junction solar cells with improved efficiency exceeding 10% |
| PP-080 | Zengchao Yu | Up-conversion charging MgGeO3:Mn2+ persistent phosphor upon illumination with white flashlight |
| PP-081 | Yongxin Song | Simultaneous detection of Fe3+ and cholesterol in human serum samples by fluorescence and colorimetry based on CDs / PBNPs |
| PP-082 | Zhiying Wang | Tri-modal ratiometric luminescent thermometer covering entire near-infrared transparency windows |
Banquet and buffet-style meals, both have been covered in the conference fee.
Changchun is located in the hinterland of Songliao Plain in Northeast China. It is the capital of Jilin Province and an important industrial base city in China. It is known as "Automobile City", "film city", "science, education and culture city", "forest city", "sculpture city" and "spring city of northern China". Our schedule on the Wednesday afternoon is kept free to enable ICL2020 participants to engage in sightseeing and cultural activities in the city of Changchun. Our conference provides free visit to Palace Museum of the Manchurian Regime and Changchun World Sculpture Park. Alternatively, you can take a historical tour of the city via bicycle or just enjoy the cool summer. Below are some spots you may choose to visit.
Changbai Mountain is the highest mountain system in the eastern margin of Eurasia, adjacent to the border between China and North Korea. Changbai mountain vegetation vertical landscape and volcanic landform landscape are the first national natural heritage sites to be included in the preliminary list of national natural heritage, national natural and cultural heritage of China. Changbai Mountain and its Tianchi, waterfalls, snow sculptures, forest sea have been selected as the "Guinness" world record for many times, and are also known as China's top ten famous mountains, China's five most beautiful lakes, China's top ten most beautiful forests. The co-organizer of the conference, Changchun Shengrong Conference Service Co., Ltd, arranges sightseeing tours of Changbai Mountain. You can consult and book the tours at the registration site.