最高学位:博士学位职称:讲师
西北农林科技大学机械与电子工程学院
陕西省杨凌示范区西农路22号
邮编:712100
Email:hanyajie0517@163.com;hanyajie@nwafu.edu.cn
一.教育背景
2021.09至2025.03 哈尔滨工业大学材料科学与工程学院博士 (光电信息科学与工程)
二.工作经历
2025.03 至今西北农林科技大学机械与电子工程学院讲师
三.研究方向
1. 光电探测——材料制备、器件构筑、智能装备应用
2.植物生长照明用荧光粉的制备与发光性能研究
3. 光催化
四.开设课程
暂无
五.学术成果及代表性文章
2019.1 – 至今,共计发表论文50余篇,谷歌引用超过1059次,H 指数为20。代表文章如下:
[1] Han Y J, Jiao S J, Zhang X, et al. Bipolar modulation in a self-powered ultra-wide photodetector based onBi2Se3/AlInAsSb heterojunction for wavelength sensitive imaging and encrypted optical communication [J].Advanced Materials, 2025, 37: 2416935. (中科院1 区, IF: 27.4, TOP 期刊)
[2] Han Y J, Jiao S J, Chen L, et al. Optimized 2D Bi2Se3 thickness for broadband, high-performance, self-powered2D/3D heterojunction photodetectors with multispectral imaging capability [J]. Nano Energy, 2024,126: 109665. (中科院1 区, IF: 17.6, TOP 期刊)
[3] Han Y J, Jiao S J, Jing J C, et al. Vertical heterojunction photodetector with self-powered broadbandresponse and high performance[J]. Chemical Engineering Journal, 2023, 477: 147060. (中科院1 区, IF: 16.7,TOP 期刊)
[4] Han Y J, Jiao S J, Jing J C, et al. A self-powered solar-blind UV-enhanced Bi2Se3/a-Ga2O3/p-Si heterojunctionphotodetector for full spectral photoresponse and imaging[J]. Nano Research, 2023, 17: 2960-2970.(中科院1 区, IF: 10.3, TOP 期刊,英文报道入选哈工大《HIT TIMES 2023 下》)
[5] Han Y J, Wang S, Liu H, et al. Far red-emitting double perovskite phosphors Ca2(1−x)Sr2xGdSbO6:Mn4+:Luminescence improvement based on composition modulation[J]. Ceramics International, 2020, 46: 11379-11389. (中科院1 区, IF: 4.5, TOP 期刊)
[6] Han Y J, Wang S, Liu H, et al. Systematic studies on Ca19M2(PO4)14:Eu3+ (M= Mg, Zn) phosphors: effectsof M cation on photoluminescence[J]. Journal of Alloys and Compounds, 2020, 844: 156070. (中科院2 区,IF: 5.3, TOP 期刊)
[7] Han Y J, Wang S, Liu H, et al. A novel Al3+ modified Li6CaLa2Sb2O12:Mn4+ far-red-emitting phosphorwith garnet structure for plant cultivation[J]. Journal of Luminescence, 2020, 221: 117031. (中科院2 区, IF:3.6)
[8] Han Y J, Wang S, Liu H, et al. Synthesis and luminescent properties of a novel deep-red phosphorSr2GdNbO6:Mn4+ for indoor plant growth lighting[J]. Journal of Luminescence, 2020, 220: 116968. (中科院2 区, IF: 3.6)
[9] Han Y J, Wang S, Liu H, et al. Mn4+ doped tetratungstate Sr9Gd2W4O24 far-red phosphor: Synthesis,luminescence properties, and potential applications in indoor plant cultivation[J]. Journal of Luminescence,2020, 220: 117027. (中科院2 区, IF: 3.6)
[10] Han Y J, Wang S, Liu H, et al. A novel Mn4+-activated garnet-type Li5La3Nb2O12 far red-emittingphosphor with high thermal stability for plant cultivation[J]. Journal of Luminescence, 2020, 219: 116888. (中科院2 区, IF: 3.6)
[11] Han Y J, Wang S, Liu H, et al. A novel promising red phosphor Ca9LiBi0.667(PO4)7: Eu3+ with excellentresponsiveness to phytochrome PFRfor the indoor plant cultivation[J]. Journal of Molecular Structure, 2020,1210: 127998. (中科院3 区, IF: 3.2)
[12] Han Y J, Wang S, Liu H, et al. BiOBr@SBA-15 system as a novel photocatalyst with high photocatalyticperformance[J]. Materials Letters, 2020, 242: 108317. (中科院3 区, IF: 3.4)
[13] Han Y J, Shi L, Liu H, et al. A novel far red-emitting phosphor SrMgAl10O17:Cr3+ for warm w-LEDs[J].Optik, 2019, 195: 162014. (中科院4 区, IF: 2.2)