Jia Siqi

@sustech.edu.cn

Department of Materials Science and Engineering | Jilin University;Department of Electrical and Electronic Engineering | Southern University of Science and Technology
Department of Materials Science and Engineering | Jilin University;Department of Electrical and Electronic Engineering | Southern University of Science and Technology

Jia Siqi


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https://researchid.co/jiasiqi
Siqi Jia is currently a Ph.D. candidate with the Department of Materials Science and Engineering at Jilin University and a visiting Ph.D. candidate at South University of Science and Technology. His research focuses on QLEDs, biomaterial, and inkjet printing technology.

EDUCATION

2013/09-2017/07 Jilin University Department of Materials Science and Engineering Metal Material Engineering BEng
2017/09-2022/07 Jilin University Department of Materials Science and Engineering Materials Science Ph.D. Candidate
2019/04-2021/04 Sustech Department of Electrical and Electronic Engineering Photoelectron Information & Science Visiting Ph.D. Candidate

RESEARCH INTERESTS

Inkjet Printing technology; Quantum Dots; Display; Semiconductor device; Biomaterials
37

Scopus Publications

796

Scholar Citations

15

Scholar h-index

15

Scholar i10-index

Scopus Publications

  • Patterning Quantum Dot Light-Emitting Diodes by Laser Direct Writing on the TFB Layer
    Depeng Li, Min Liao, Mi Gu, Jingrui Ma, Lei Jin, Siqi Jia, Kai Wang, Xiao Wei Sun
    IEEE Electron Device Letters, 2026
    Advancements in quantum dot light-emitting diodes (QLEDs) demand fine pixel patterning. However, in the absence of a current blocking layer between pixels, patterning techniques relying on traditional methods like photolithography will cause the direct contact between the electron transport layer (ETL) and the hole transport layer (HTL). This will lead to leakage current and severely degrade the device performance. In this study, we investigated the application of laser direct writing (LDW) to pattern the HTL in QLEDs, enabling the creation of high-resolution pixel structures. LDW selectively degrades the HTL in specific regions, allowing localized modification while maintaining overall device integrity. QLEDs fabricated using this technique demonstrate an impressive pixel density of up to 2540 pixels per inch (PPI) with well-defined patterns. Compared with patterned QLEDs fabricated by photolithography, the performance of the patterned devices fabricated by LDW method has been significantly improved and can be comparable to that of unpatterned QLEDs. These findings demonstrate that patterning HTL using LDW is an effective and scalable method for high-resolution pixelated QLEDs, signifying its potential for advancing display technologies requiring fine pixelation and high-resolution imaging, such as next-generation micro displays and high-definition screens.
  • Fully Planarized Donor Enables Record-High Efficiency for Blue Through-Space Charge Transfer Emission
    Jun Hu, Dexia Zhou, Shanshan Liang, Zhaobing Tang, Siqi Jia, Jize Liu, Zhihua Ma, Chao Deng, Yanjie Wang, Qisheng Zhang
    Angewandte Chemie International Edition, 2026
    Through‐space charge transfer (TSCT) emitters featuring spatially separated donor‐acceptor architecture offer a promising strategy for designing thermally activated delayed fluorescence materials. However, developing high‐performance blue TSCT emitter remains challenging due to the intrinsic trade‐off between a wide bandgap and sufficient spatial electronic interactions. Herein, a fully planarized donor, in favor of strengthening spatial interactions and suppressing non‐radiative decay, is proposed to construct blue TSCT emitter. The resulting emitter exhibits an emission peak of 467 nm, a high photoluminescence quantum yield of 98% and a large reverse intersystem crossing (RISC) rate of 1.8×10 6 s −1 . Organic light‐emitting diodes based on the emitter achieve a maximum external quantum efficiency (EQE max ) of 34.0% with Commission Internationale de L'Eclairage (CIE) coordinates of (0.16, 0.29) and a maximum luminance of 21560 cd m −2 , which, to the best of our knowledge, represents the state‐of‐the‐art performances for blue TSCT emitters. Furthermore, hyperfluorescent devices employing the emitter as sensitizer demonstrate a high EQE max of 35.8% with a narrow full width at half maximum of 20 nm and CIE coordinates of (0.12, 0.14). This work demonstrates the critical importance of the fully planarized donor for developing high‐efficiency blue TSCT emitter.
  • Bright and stable green-emitting quantum dots with universal surface modifiability for diagnostic probes
    Ning Li, Dexia Zhou, Ya Liu, Ziming Zhou, Zhaobing Tang, Siqi Jia, Ruili Wu, Huaibin Shen, Yanbing Lv, Lin Song Li
    Chemical Engineering Journal, 2026
  • High-Stability Thick-Shell CdZnSeS/CdZnS/ZnS Green-Alloy Quantum Dots in Photoluminescent Diffuser-Plate Masterbatches
    Ziming Zhou, Dexia Zhou, Ning Li, Ya Liu, Zhaobing Tang, Siqi Jia, Xiao Wei Sun
    Materials, 2025
    As a core component of emerging quantum-dot display technology, the stability of quantum-dot materials is crucial to determining the performance of quantum-dot photoluminescent diffuser plates. This study successfully synthesized high-stability thick-shell CdZnSeS/CdZnS/ZnS core–shell structured green-alloy quantum dots suitable for photoluminescent diffuser plates, providing an innovative solution for performance breakthroughs in this field. Through orthogonal experimental design, the synthesis parameters of the CdZnSeS alloy core were precisely optimized to achieve an ideal balance in emission wavelength, full width at half maximum (FWHM), and quantum yield (QY). Furthermore, by systematically adjusting ligands and synthesis parameters, a thick-shell CdZnSeS/CdZnS/ZnS core–shell structure was constructed, significantly improving the stability of the quantum dots. Critically, the replacement of the original oleic-acid ligands with tetradecylphosphonic-acid (TDPA) ligands at high temperature doubled the stability of the quantum-dot diffuser plates. Under extreme accelerated-aging conditions such as intense blue light, high temperature, and high humidity, the T90 lifetime of the diffuser plate exceeded 1000 h, and the xy chromaticity coordinate shift was strictly controlled within 1%, fully meeting the stringent commercial requirements. This achievement not only overcomes the stability bottleneck of quantum dots in the application of photoluminescent diffuser plates but also paves the way for their large-scale commercialization, promising to promote the development of display technology toward higher color gamut and longer lifetimes.
  • Efficient ZnSeTe-Based Blue Quantum-Dot Light-Emitting Diodes via Phosphine Oxide Dual Passivation of Quantum Dots and ZnMgO Interfaces
    Shanshan Liang, Zhaobing Tang, Shang Li, Xie Guo, Siqi Jia, Xiao Wei Sun
    Advanced Optical Materials, 2025
    ZnSeTe‐based blue quantum dots light‐emitting diodes (QD‐LEDs), characterized by their eco‐friendly nature and high‐performance potential, have emerged as promising cadmium‐free candidates for next‐generation lighting and display technologies. However, the performance of these devices is significantly hindered by the abundance of defects on the surfaces of quantum dots (QDs) and ZnMgO (ZMO), leading to serious exciton quenching. Here, a dual passivation strategy is presented that simultaneously modifies the QDs film and ZMO nanoparticles through the integration of electronegative phosphine oxide (P═O)‐functionalized organic molecules. The results show that the electrons in the P═O functional group are bind to surface defects in QDs, effectively reducing trap states and increasing the population of excitons. Additionally, these electrons interact with oxygen vacancies in ZMO, mitigating exciton quenching caused by vacancy defects in ZMO. This approach simultaneously passivates anionic vacancies on QDs surfaces and hydroxyl‐related defects in ZMO, thereby suppressing non‐radiative recombination pathways and optimizing charge transport dynamics. The optimized QD‐LEDs achieve a peak external quantum efficiency (EQE) of 18.02% and a luminance of 44037 cd m⁻2 at 5 V. Furthermore, the operational lifetime (T50) at an initial luminance of 100 cd m⁻2 is extended sixfold to 618 h, highlighting remarkable stability. The results indicate that defect passivation engineering is crucial for the fabrication of efficient and stable ZnSeTe‐based blue QLEDs.
  • Unraveling the Influence of Temperature on Charge Dynamics in Quantum Dot Light-Emitting Diodes
    Jingrui Ma, Siqi Jia, Xiangwei Qu, Kai Wang, Lei Jin, Xiao Wei Sun
    IEEE Electron Device Letters, 2025
    The reliability and efficiency of quantum dot light-emitting diode (QLED) applications are strongly influenced by temperature, making it critical to understand how temperature affects charge dynamics and degradation mechanisms. In this work, we investigate the temperature dependence of key device parameters in QLEDs across a temperature range of -20°C to 85°C. For every 10oC increase, the external quantum efficiency decreases by ~0.65%, and the electroluminescence emission wavelength exhibits a red-shift of ~1.1 nm. Our results demonstrate that the decline in efficiency and stability at elevated temperatures is mainly attributed to the accumulation of excess electrons and the inhibition of exciton recombination. This study provides valuable insights into the degradation mechanisms, deepening our understanding of temperaturedriven performance deterioration, which is crucial for the design of more durable and efficient QLEDs.
  • Fibered Optical Sensor Based on the Integration of Quantum Dots on a Polymer Tip
    Shang Li, Hongshi Chen, Menglei Hu, Lemin Shi, Mi Gu, Liudmila Trotsiuk, Ali Issa, Safi Jradi, Siqi Jia, Jingrui Ma, Yun Luo, Pierre-Michel Adam, Claire Mangeney, Nordin Felidj, Peyman Servati, Xiao Wei Sun, Renaud Bachelot
    Journal of Physical Chemistry C, 2024
    In this article, we report on a novel approach developed for the fabrication of luminescent optical fibered tips containing quantum dots (QDs). It is based on a sequential process involving photopolymerization of pentaerythritol triacrylate through an optical fiber to create a first polymer tip and then a second tip based on diazonium salt chemistry for surface functionalization and QD immobilization via electrostatic interactions. The resulting luminescent tip has a radius of curvature of 60.7 nm and exhibits the same luminescence spectrum as colloidal QDs. To evaluate the potential of this QD-tip structure in sensing applications, it was immersed in an ethanol solution of ZnO nanoparticles of various concentrations (7–35 mg/mL), which resulted in QD luminescence quenching. A 17.9-fold quenching of the luminescence intensity was achieved at a maximum concentration of 35 mg/mL. The change in the photoluminescence lifetime was proposed as a sensing criterion since it is more sensitive to the environment than the luminescence intensity. The calibration curve was obtained, showing the potential of such type of tips as sensors for a new nondestructive method for the determination of nanoparticle concentration in solution.
  • Optimizing ZnO–Quantum Dot Interface with Thiol as Ligand Modification for High-Performance Quantum Dot Light-Emitting Diodes
    Siqi Jia, Menglei Hu, Mi Gu, Jingrui Ma, Depeng Li, Guohong Xiang, Pai Liu, Kai Wang, Peyman Servati, Wei Kun Ge, Xiao Wei Sun
    Small, 2024
    As the electron transport layer in quantum dot light‐emitting diodes (QLEDs), ZnO suffers from excessive electrons that lead to luminescence quenching of the quantum dots (QDs) and charge‐imbalance in QLEDs. Therefore, the interplay between ZnO and QDs requires an in‐depth understanding. In this study, DFT and COSMOSL simulations are employed to investigate the effect of sulfur atoms on ZnO. Based on the simulations, thiol ligands (specifically 2‐hydroxy‐1‐ethanethiol) to modify the ZnO nanocrystals are adopted. This modification alleviates the excess electrons without causing any additional issues in the charge injection in QLEDs. This modification strategy proves to be effective in improving the performance of red‐emitting QLEDs, achieving an external quantum efficiency of over 23% and a remarkably long lifetime T95 of >12 000 h at 1000 cd m−2. Importantly, the relationship between ZnO layers with different electronic properties and their effect on the adjacent QDs through a single QD measurement is investigated. These findings show that the ZnO surface defects and electronic properties can significantly impact the device performance, highlighting the importance of optimizing the ZnO–QD interface, and showcasing a promising ligand strategy for the development of highly efficient QLEDs.
  • Research Progress on Silicon-based Quantum Dot Lasers
    Nan ZHANG, , Qijie XIE, Quanxin NA, Dengfeng LUO, Siqi JIA, Kai WANG, and
    Faguang Xuebao Chinese Journal of Luminescence, 2023
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  • Enhancing performance of inverted quantum-dot light-emitting diodes based on a solution-processed hole transport layer via ligand treatment
    Depeng Li, Jingrui Ma, Wenbo Liu, Guohong Xiang, Xiangwei Qu, Siqi Jia, Mi Gu, Jiahao Wei, Pai Liu, Kai Wang, Xiaowei Sun
    Journal of Semiconductors, 2023
    The performance of inverted quantum-dot light-emitting diodes (QLEDs) based on solution-processed hole transport layers (HTLs) has been limited by the solvent-induced damage to the quantum dot (QD) layer during the spin-coating of the HTL. The lack of compatibility between the HTL's solvent and the QD layer results in an uneven surface, which negatively impacts the overall device performance. In this work, we develop a novel method to solve this problem by modifying the QD film with 1,8-diaminooctane to improve the resistance of the QD layer for the HTL’s solvent. The uniform QD layer leads the inverted red QLED device to achieve a low turn-on voltage of 1.8 V, a high maximum luminance of 105 500 cd/m2, and a remarkable maximum external quantum efficiency of 13.34%. This approach releases the considerable potential of HTL materials selection and offers a promising avenue for the development of high-performance inverted QLEDs.
  • A full high-definition quantum dot light-emitting diode-on-silicon microdisplay
    Siqi Jia, Depeng Li, Yixing Chen, Guanding Mei, Jingrui Ma, Xiangwei Qu, Haodong Tang, Pai Liu, Bing Xu, Kai Wang, Zhikuan Zhang, Jun Xia, Xiao Wei Sun
    Journal of the Society for Information Display, 2023
  • Does interfacial exciton quenching exist in high-performance quantum dot light-emitting diodes?
    Xiangwei Qu, Wenbo Liu, Depeng Li, Jingrui Ma, Mi Gu, Siqi Jia, Guohong Xiang, Xiao Wei Sun
    Nanoscale, 2023
  • A dC/dV Measurement for Quantum-Dot Light-Emitting Diodes
    Jingrui Ma, Haodong Tang, Xiangwei Qu, Guohong Xiang, Siqi Jia, Pai Liu, Kai Wang, Xiao Wei Sun
    Chinese Physics Letters, 2022
  • Development of Solution-Processed Perovskite Semiconductors Lasers
    Nan Zhang, Quanxin Na, Qijie Xie, Siqi Jia
    Crystals, 2022
  • Fabrication of Highly Efficient Perovskite Nanocrystal Light-Emitting Diodes via Inkjet Printing
    Taikang Ye, Siqi Jia, Zhaojin Wang, Rui Cai, Hongcheng Yang, Fangqing Zhao, Yangzhi Tan, Xiaowei Sun, Dan Wu, Kai Wang
    Micromachines, 2022
  • Patterning of quantum dot light-emitting diodes based on IGZO films
    Jingrui Ma, Siqi Jia, Xiangwei Qu, Haodong Tang, Bing Xu, Zhenghui Wu, Pai Liu, Kai Wang, Xiaochuan Yang, Wenwei Xu, Xiao Wei Sun
    Journal of the Society for Information Display, 2022
  • Improvement of the efficiency and stability of inkjet-printed green quantum dot light-emitting diodes by controlling the extra shell of quantum dot
    Siqi Jia, Pai Liu, Jingrui Ma, Xiangwei Qu, Haodong Tang, Depeng Li, Jing Tang, Zhaojin Wang, Guangyu Li, Kai Wang, Xiaochuan Yang, Wenwei Xu, Xiao Wei Sun
    Journal of the Society for Information Display, 2022
  • Improving the corrosion resistance and biocompatibility of magnesium alloy via composite coatings of calcium phosphate/carbonate induced by silane
    Tianxiao Wang, Siqi Jia, Yingchao Xu, Yunqian Dong, Yunting Guo, Zilong Huang, Guangyu Li, Jianshe Lian
    Progress in Organic Coatings, 2022
  • Improved blue quantum dot light-emitting diodes via chlorine passivated ZnO nanoparticle layer
    Xiangwei Qu, Jingrui Ma, Siqi Jia, Zhenghui Wu, Pai Liu, Kai Wang, Xiao-Wei Sun
    Chinese Physics B, 2021
  • High Performance Inkjet-Printed Quantum-Dot Light-Emitting Diodes with High Operational Stability
    Siqi Jia, Haodong Tang, Jingrui Ma, Shihao Ding, Xiangwei Qu, Bing Xu, Zhenghui Wu, Guangyu Li, Pai Liu, Kai Wang, Xiao Wei Sun
    Advanced Optical Materials, 2021
  • Design and Simulation of a Colloidal Quantum Dot Vertical-Cavity Surface-Emitting Laser
    项国洪 Xiang Guohong, 贾思琪 Jia Siqi, 李德鹏 Li Depeng, 马精瑞 Ma Jingrui, 刘湃 Liu Pai, 王恺 Wang Kai, 郭海成 Hoi-Sing Kwok, 余明斌 Yu Mingbin, 孙小卫 Sun Xiaowei
    Zhongguo Jiguang Chinese Journal of Lasers, 2021
  • Improved Ink-Jet-Printed CdSe Quantum Dot Light-Emitting Diodes with Minimized Hole Transport Layer Erosion
    Haodong Tang, Siqi Jia, Shihao Ding, Pai Liu, Jingrui Ma, Xiangtian Xiao, Xiangwei Qu, Haochen Liu, Hongcheng Yang, Bing Xu, Wei Chen, Guangyu Li, Zoe Pikramenou, Carl Anthony, Kai Wang, Xiao Wei Sun
    ACS Applied Electronic Materials, 2021
  • High-Performance Ultrapure Green CdSe/CdS Core/Crown Nanoplatelet Light-Emitting Diodes by Suppressing Nonradiative Energy Transfer
    Zuoliang Wen, Pai Liu, Jingrui Ma, Siqi Jia, Xiangtian Xiao, Shihao Ding, Haodong Tang, Hongcheng Yang, Chaojian Zhang, Xiangwei Qu, Bing Xu, Kai Wang, Kie Leong Teo, Xiao Wei Sun
    Advanced Electronic Materials, 2021
  • Inkjet printed QLED with enhanced efficiency and stability based on optimized hole transport layer with less side emission
    Haodong Tang, Siqi Jia, Shihao Ding, Pai Liu, Jingrui Ma, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2021
  • Improvement in inkjet printed green qled efficiency
    Siqi Jia, Jingrui Ma, Pai Liu, Zhenghui Wu, Bing Xu, Jing Tang, Guangyu Li, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2021
  • Patterning of quantum dots light-emitting diodes based on IGZO films
    Jingrui Ma, Siqi Jia, Xiangwei Qu, Haodong Tang, Bing Xu, Zhenghui Wu, Pai Liu, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2021
  • Optimizing the performance of inkjet printed green QLED by precisely control of shell thickness
    Siqi Jia, Jingrui Ma, Xiangwei Qu, Haodong Tang, Zhenghui Wu, Bing Xu, Pai Liu, Guangyu Li, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2021
  • Thin-film compatible process high resolution patterning of quantum dots light-emitting diodes
    Jingrui Ma, Siqi Jia, Haodong Tang, Xiangwei Qu, Bing Xu, Zhenghui Wu, Pai Liu, Jing Tang, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2021
  • Improving the performance of inkjet printed QLED by annealing post-treatment
    Siqi Jia, Jingrui Ma, Xiangwei Qu, Haodong Tang, Zhenghui Wu, Bing Xu, Pai Liu, Guangyu Li, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2021
  • A multifunctional polypyrrole/zinc oxide composite coating on biodegradable magnesium alloys for orthopedic implants
    Yunting Guo, Siqi Jia, Lu Qiao, Yingchao Su, Rui Gu, Guangyu Li, Jianshe Lian
    Colloids and Surfaces B Biointerfaces, 2020
  • Enhanced light emission of quantum dot films by scattering of poly(zinc methacrylate) coating CdZnSeS/ZnS quantum dots and high refractive index BaTiO3nanoparticles
    Hongcheng Yang, Miao Zhou, Haodong Tang, Mingyu Sun, Pai Liu, Yizun Liu, Lixuan Chen, Dongze Li, Dan Wu, Junjie Hao, Bing Xu, Zhili Zhao, Zhenwei Ren, Siqi Jia, Kai Wang, Xiao Wei Sun
    Rsc Advances, 2020
  • Highly Luminescent and Stable Green Quasi-2D Perovskite-Embedded Polymer Sheets by Inkjet Printing
    Siqi Jia, Guangyu Li, Pai Liu, Rui Cai, Haodong Tang, Bing Xu, Zhaojin Wang, Zhenghui Wu, Kai Wang, Xiao Wei Sun
    Advanced Functional Materials, 2020
  • Effects of nanosized TiC and TiB2 particles on the corrosion behavior of Al-Mg-Si alloy
    Run Geng, Si-Qi Jia, Feng Qiu, Qing-Long Zhao, Qi-Chuan Jiang
    Corrosion Science, 2020
  • Enhanced corrosion resistance and biocompatibility of polydopamine/dicalcium phosphate dihydrate/collagen composite coating on magnesium alloy for orthopedic applications
    Yunting Guo, Siqi Jia, Lu Qiao, Yingchao Su, Rui Gu, Guangyu Li, Jianshe Lian
    Journal of Alloys and Compounds, 2020
  • High luminescent red quantum dot light-emitting diodes by inkjet printing
    Siqi Jia, Pai Liu, Haodong Tang, Jingrui Ma, Bing Xu, Guangyu Li, Kai Wang, Xiao Wei Sun
    Digest of Technical Papers SID International Symposium, 2020
  • Preparation and characterization of a composite coating composed of polycaprolactone (PCL) and amorphous calcium carbonate (ACC) particles for enhancing corrosion resistance of magnesium implants
    Siqi Jia, Yunting Guo, Wei Zai, Yingchao Su, Shisheng Yuan, Xiaoshuai Yu, Yingchao Xu, Guangyu Li
    Progress in Organic Coatings, 2019
  • Hydroxyapatite/titania composite coatings on biodegradable magnesium alloy for enhanced corrosion resistance, cytocompatibility and antibacterial properties
    Yunting Guo, Yingchao Su, Siqi Jia, Guixun Sun, Rui Gu, Donghui Zhu, Guangyu Li, Jianshe Lian
    Journal of the Electrochemical Society, 2018

RECENT SCHOLAR PUBLICATIONS

  • Fully Planarized Donor Enables Record‐High Efficiency for Blue Through‐Space Charge Transfer Emission
    J Hu, D Zhou, S Liang, Z Tang, S Jia, J Liu, Z Ma, C Deng, Y Wang, ...
    Angewandte Chemie International Edition, e4991944 , 2026
    2026
  • Bright and stable green-emitting quantum dots with universal surface modifiability for diagnostic probes
    N Li, D Zhou, Y Liu, Z Zhou, Z Tang, S Jia, R Wu, H Shen, Y Lv, LS Li
    Chemical Engineering Journal, 171549 , 2025
    2025
    Citations: 1
  • Patterning Quantum Dot Light-Emitting Diodes by Laser Direct Writing on the TFB Layer
    D Li, M Liao, M Gu, J Ma, L Jin, S Jia, K Wang, XW Sun
    IEEE Electron Device Letters , 2025
    2025
  • High-Stability Thick-Shell CdZnSeS/CdZnS/ZnS Green-Alloy Quantum Dots in Photoluminescent Diffuser-Plate Masterbatches
    Z Zhou, D Zhou, N Li, Y Liu, Z Tang, S Jia, XW Sun
    Materials 18 (23), 5383 , 2025
    2025
    Citations: 1
  • Efficient ZnSeTe‐Based Blue Quantum‐Dot Light‐Emitting Diodes via Phosphine Oxide Dual Passivation of Quantum Dots and ZnMgO Interfaces
    S Liang, Z Tang, S Li, X Guo, S Jia, XW Sun
    Advanced Optical Materials 13 (15), 2500034 , 2025
    2025
    Citations: 6
  • Unraveling the Influence of Temperature on Charge Dynamics in Quantum Dot Light-Emitting Diodes
    J Ma, S Jia, X Qu, K Wang, L Jin, XW Sun
    IEEE Electron Device Letters , 2025
    2025
    Citations: 3
  • Fibered Optical Sensor Based on the Integration of Quantum Dots on a Polymer Tip
    S Li, H Chen, M Hu, L Shi, M Gu, L Trotsiuk, A Issa, S Jradi, S Jia, J Ma, ...
    The Journal of Physical Chemistry C 128 (48), 20624-20634 , 2024
    2024
  • Optimizing ZnO–Quantum Dot Interface with Thiol as Ligand Modification for High‐Performance Quantum Dot Light‐Emitting Diodes (Small 13/2024)
    S Jia, M Hu, M Gu, J Ma, D Li, G Xiang, P Liu, K Wang, P Servati, WK Ge, ...
    Small 20 (13), 2470106 , 2024
    2024
    Citations: 3
  • Optimizing ZnO–Quantum Dot Interface with Thiol as Ligand Modification for High‐Performance Quantum Dot Light‐Emitting Diodes
    S Jia, M Hu, M Gu, J Ma, D Li, G Xiang, P Liu, K Wang, P Servati, WK Ge, ...
    Small 20 (13), 2307298 , 2024
    2024
    Citations: 37
  • A full high‐definition quantum dot light‐emitting diode‐on‐silicon microdisplay
    S Jia, D Li, Y Chen, G Mei, J Ma, X Qu, H Tang, P Liu, B Xu, K Wang, ...
    Journal of the Society for Information Display 31 (9), 548-558 , 2023
    2023
    Citations: 9
  • Enhancing performance of inverted quantum-dot light-emitting diodes based on a solution-processed hole transport layer via ligand treatment
    D Li, J Ma, W Liu, G Xiang, X Qu, S Jia, M Gu, J Wei, P Liu, K Wang, X Sun
    Journal of Semiconductors 44 (9), 092603 , 2023
    2023
    Citations: 16
  • Does interfacial exciton quenching exist in high-performance quantum dot light-emitting diodes?
    X Qu, W Liu, D Li, J Ma, M Gu, S Jia, G Xiang, XW Sun
    Nanoscale 15 (7), 3430-3437 , 2023
    2023
    Citations: 20
  • A dC / dV Measurement for Quantum-Dot Light-Emitting Diodes
    J Ma, H Tang, X Qu, G Xiang, S Jia, P Liu, K Wang, XW Sun
    Chinese Physics Letters 39 (12), 128401 , 2022
    2022
    Citations: 22
  • Development of Solution-Processed Perovskite Semiconductors Lasers
    N Zhang, Q Na, Q Xie, S Jia
    Crystals 12 (9), 1274 , 2022
    2022
    Citations: 6
  • Patterning of quantum dot light‐emitting diodes based on IGZO films
    J Ma, S Jia, X Qu, H Tang, B Xu, Z Wu, P Liu, K Wang, X Yang, W Xu, ...
    Journal of the Society for Information Display 30 (7), 585-592 , 2022
    2022
    Citations: 1
  • Improvement of the efficiency and stability of inkjet‐printed green quantum dot light‐emitting diodes by controlling the extra shell of quantum dot
    S Jia, P Liu, J Ma, X Qu, H Tang, D Li, J Tang, Z Wang, G Li, K Wang, ...
    Journal of the Society for Information Display 30 (7), 574-584 , 2022
    2022
    Citations: 8
  • Fabrication of highly efficient perovskite nanocrystal light-emitting diodes via inkjet printing
    T Ye, S Jia, Z Wang, R Cai, H Yang, F Zhao, Y Tan, X Sun, D Wu, K Wang
    Micromachines 13 (7), 983 , 2022
    2022
    Citations: 9
  • Improving the corrosion resistance and biocompatibility of magnesium alloy via composite coatings of calcium phosphate/carbonate induced by silane
    T Wang, S Jia, Y Xu, Y Dong, Y Guo, Z Huang, G Li, J Lian
    Progress in Organic Coatings 163, 106653 , 2022
    2022
    Citations: 30
  • High performance inkjet‐printed quantum‐dot light‐emitting diodes with high operational stability
    S Jia, H Tang, J Ma, S Ding, X Qu, B Xu, Z Wu, G Li, P Liu, K Wang, ...
    Advanced Optical Materials 9 (22), 2101069 , 2021
    2021
    Citations: 86
  • Improved blue quantum dot light-emitting diodes via chlorine passivated ZnO nanoparticle layer
    X Qu, J Ma, S Jia, Z Wu, P Liu, K Wang, XW Sun
    Chinese Physics B 30 (11), 118503 , 2021
    2021
    Citations: 7

MOST CITED SCHOLAR PUBLICATIONS

  • Highly luminescent and stable green quasi‐2D perovskite‐embedded polymer sheets by inkjet printing
    S Jia, G Li, P Liu, R Cai, H Tang, B Xu, Z Wang, Z Wu, K Wang, XW Sun
    Advanced functional materials 30 (24), 1910817 , 2020
    2020
    Citations: 96
  • Enhanced corrosion resistance and biocompatibility of polydopamine/dicalcium phosphate dihydrate/collagen composite coating on magnesium alloy for orthopedic applications
    Y Guo, S Jia, L Qiao, Y Su, R Gu, G Li, J Lian
    Journal of Alloys and Compounds 817, 152782 , 2020
    2020
    Citations: 88
  • Effects of nanosized TiC and TiB2 particles on the corrosion behavior of Al-Mg-Si alloy
    R Geng, SQ Jia, F Qiu, QL Zhao, QC Jiang
    Corrosion Science 167, 108479 , 2020
    2020
    Citations: 87
  • High performance inkjet‐printed quantum‐dot light‐emitting diodes with high operational stability
    S Jia, H Tang, J Ma, S Ding, X Qu, B Xu, Z Wu, G Li, P Liu, K Wang, ...
    Advanced Optical Materials 9 (22), 2101069 , 2021
    2021
    Citations: 86
  • A multifunctional polypyrrole/zinc oxide composite coating on biodegradable magnesium alloys for orthopedic implants
    Y Guo, S Jia, L Qiao, Y Su, R Gu, G Li, J Lian
    Colloids and Surfaces B: Biointerfaces 194, 111186 , 2020
    2020
    Citations: 78
  • Hydroxyapatite/titania composite coatings on biodegradable magnesium alloy for enhanced corrosion resistance, cytocompatibility and antibacterial properties
    Y Guo, Y Su, S Jia, G Sun, R Gu, D Zhu, G Li, J Lian
    Journal of The Electrochemical Society 165 (14), C962-C972 , 2018
    2018
    Citations: 64
  • Optimizing ZnO–Quantum Dot Interface with Thiol as Ligand Modification for High‐Performance Quantum Dot Light‐Emitting Diodes
    S Jia, M Hu, M Gu, J Ma, D Li, G Xiang, P Liu, K Wang, P Servati, WK Ge, ...
    Small 20 (13), 2307298 , 2024
    2024
    Citations: 37
  • High‐Performance Ultrapure Green CdSe/CdS Core/Crown Nanoplatelet Light‐Emitting Diodes by Suppressing Nonradiative Energy Transfer
    Z Wen, P Liu, J Ma, S Jia, X Xiao, S Ding, H Tang, H Yang, C Zhang, X Qu, ...
    Advanced Electronic Materials 7 (7), 2000965 , 2021
    2021
    Citations: 34
  • Preparation and characterization of a composite coating composed of polycaprolactone (PCL) and amorphous calcium carbonate (ACC) particles for enhancing corrosion resistance of …
    S Jia, Y Guo, W Zai, Y Su, S Yuan, X Yu, Y Xu, G Li
    Progress in Organic Coatings 136, 105225 , 2019
    2019
    Citations: 32
  • Improving the corrosion resistance and biocompatibility of magnesium alloy via composite coatings of calcium phosphate/carbonate induced by silane
    T Wang, S Jia, Y Xu, Y Dong, Y Guo, Z Huang, G Li, J Lian
    Progress in Organic Coatings 163, 106653 , 2022
    2022
    Citations: 30
  • Improved ink-jet-printed CdSe quantum dot light-emitting diodes with minimized hole transport layer erosion
    H Tang, S Jia, S Ding, P Liu, J Ma, X Xiao, X Qu, H Liu, H Yang, B Xu, ...
    ACS Applied Electronic Materials 3 (7), 3005-3014 , 2021
    2021
    Citations: 27
  • A dC / dV Measurement for Quantum-Dot Light-Emitting Diodes
    J Ma, H Tang, X Qu, G Xiang, S Jia, P Liu, K Wang, XW Sun
    Chinese Physics Letters 39 (12), 128401 , 2022
    2022
    Citations: 22
  • Does interfacial exciton quenching exist in high-performance quantum dot light-emitting diodes?
    X Qu, W Liu, D Li, J Ma, M Gu, S Jia, G Xiang, XW Sun
    Nanoscale 15 (7), 3430-3437 , 2023
    2023
    Citations: 20
  • Enhancing performance of inverted quantum-dot light-emitting diodes based on a solution-processed hole transport layer via ligand treatment
    D Li, J Ma, W Liu, G Xiang, X Qu, S Jia, M Gu, J Wei, P Liu, K Wang, X Sun
    Journal of Semiconductors 44 (9), 092603 , 2023
    2023
    Citations: 16
  • Enhanced light emission of quantum dot films by scattering of poly (zinc methacrylate) coating CdZnSeS/ZnS quantum dots and high refractive index BaTiO 3 nanoparticles
    H Yang, M Zhou, H Tang, M Sun, P Liu, Y Liu, L Chen, D Li, D Wu, J Hao, ...
    RSC advances 10 (53), 31705-31710 , 2020
    2020
    Citations: 16
  • A full high‐definition quantum dot light‐emitting diode‐on‐silicon microdisplay
    S Jia, D Li, Y Chen, G Mei, J Ma, X Qu, H Tang, P Liu, B Xu, K Wang, ...
    Journal of the Society for Information Display 31 (9), 548-558 , 2023
    2023
    Citations: 9
  • Fabrication of highly efficient perovskite nanocrystal light-emitting diodes via inkjet printing
    T Ye, S Jia, Z Wang, R Cai, H Yang, F Zhao, Y Tan, X Sun, D Wu, K Wang
    Micromachines 13 (7), 983 , 2022
    2022
    Citations: 9
  • Improvement of the efficiency and stability of inkjet‐printed green quantum dot light‐emitting diodes by controlling the extra shell of quantum dot
    S Jia, P Liu, J Ma, X Qu, H Tang, D Li, J Tang, Z Wang, G Li, K Wang, ...
    Journal of the Society for Information Display 30 (7), 574-584 , 2022
    2022
    Citations: 8
  • Improved blue quantum dot light-emitting diodes via chlorine passivated ZnO nanoparticle layer
    X Qu, J Ma, S Jia, Z Wu, P Liu, K Wang, XW Sun
    Chinese Physics B 30 (11), 118503 , 2021
    2021
    Citations: 7
  • Efficient ZnSeTe‐Based Blue Quantum‐Dot Light‐Emitting Diodes via Phosphine Oxide Dual Passivation of Quantum Dots and ZnMgO Interfaces
    S Liang, Z Tang, S Li, X Guo, S Jia, XW Sun
    Advanced Optical Materials 13 (15), 2500034 , 2025
    2025
    Citations: 6