创见|实干|卓越
与光同程,做民族仪器企业

氙灯xenon light source

PLS-FX300HU高均匀性一体式氙灯光源

PLS-FX300HU High uniformity integrated xenon light source

产品中心:氙灯品牌:泊菲莱浏览量:1267
PLS-FX300HU高均匀性一体式氙灯光源输出光功率密度限制值≥3000 mW/cm²,光强调节方式有电流调节、电动光阑两种,可满足高强度均匀光的实验需求。
  • 产品介绍
  • 应用领域
  • 文献
  • 技术维护

关键特征

● 特为光电材料测试设计,充分考虑光电极尺寸及辐照特性需求;

● 输出矩形、均匀光斑,10×10~50×50 mm2连续可调;

● 输出光斑的均匀性高,光斑尺寸≤20×20 mm2时,可达A级太阳模拟器要求,适用于光电转化效率(IPCE)的测量;

● 输出光功率密度限制值≥3000 mW/cm2(光斑大小10×10 mm2,调焦筒直接输出),可满足高强度均匀光的实验需求;

● 光强调节方式:电流调节、电动光阑,实现对输出光强度精细化调节。

 

应用领域

▲特别适用   ●较为适用  ○可以使用

▲ PEC光电化学       ▲ 太阳能电池测试       ▲ 膜光催化

● 光降解气体污染物(如VOCs 、甲醛、氮氧化物、硫氧化物等)

● 光降解液体污染物(如染料、苯及苯系物等)

○ 光催化分解水制氢/氧       ○ 光催化全分解水       ○ 光催化CO2还原       ○ 光致变色       ○ 光合成     

光输出特性

● 总光功率:50 W

● 光谱范围:320~800 nm

● 配合滤光片:紫外光区,可见光区及窄带光

● 光斑尺寸:输出矩形光斑10×10~50×50 mm2连续可调

● 辐照不均匀性:<±4%

安全性

● 灯箱-电源箱一体式设计

● 风扇故障保护,风扇关机延时

● 过载过流自动断电防护功能

光源稳定性

● 直接测量光输出变化的精密光学光反馈系统

● 长周期辐照不稳定性:<2%(8 h)

● 输出光不均匀性:±1%

● 基于微型CPU的集中数字化供电管理软件控制

控制方式

● 工作模式:专用光控模式

电流限制值:21 A

● 灯泡(耗材)使用寿命:>1000 h(满足光催化正常条件下的光强度要求)

 

代表文献

广州大学黄勇潮团队引用PLS-FX300HU光源.png

内蒙古大学王蕾团队引用PLS-FX300HU光源.png

内蒙古大学王蕾团队引用PLS-FX300HU光源1.png

  • PEC光电化学
  • 太阳能电池测试
  • 膜光催化
  • 光降解气体污染物
  • 光降解液体污染物
  • 光催化分解水制氢/氧
  • 光催化全分解水
  • 光催化CO2还原
  • 光致变色
  • 光合成
  • [1] Gao Lingfeng, Zhang Han. PbSe nanocrystals produced by facile liquid phase exfoliation for efficient UV–Vis photodetectors. Advanced Functional Materials, 2021, 31: 2010401. 
  • [2] Liu Shujie, Wang Zhaowu. Tungsten induced defects control on BiVO4 photoanodes for enhanced solar water splitting performance and photocorrosion resistance. Applied Catalysis B: Environmental, 2021, 298: 120610. 
  • [3] Q. Tang, Z. Sun, S. Deng, et al., Decorating g-C3N4 with alkalinized Ti3C2 MXene for promoted photocatalytic CO2 reduction performance, J Colloid Interface Sci, 2020, 564, 406-417.
  • [4] X. Wan, J. Liu, D. Wang, et al., From core-shell to yolk-shell: Keeping the intimately contacted interface for plasmonic metal@semiconductor nanorods toward enhanced near-infrared photoelectrochemical performance, Nano Research, 2020, 13, 1162-1170.
  • [5] S. Hou, X.-C. Dai, Y.-B. Li, et al., Charge transfer modulation in layer-by-layer-assembled multilayered photoanodes for solar water oxidation, Journal of Materials Chemistry A, 2019, 7, 22487-22499.
  • [6] Shujie Liu, Rui-Ting Gao, Mao Sun et. al. In situ construction of hybrid Co(OH)2 nanowires for promoting long-term water splitting. Applied Catalysis B: Environmental 292 (2021) 120063.
  • [7] Shujie Liu, Rui-Ting Gao, Rongao Zhang, Zhaowu Wang, Xianhu Liu, Tomohiko Nakajima, Xueyuan Zhang, Yiguo Su, Lei Wang, Tungsten induced defects control on BiVO4 photoanodes for enhanced solar water splitting performance and photocorrosion resistance, Applied Catalysis B: Environmental 298 (2021) 120610.
  • [8] Xinyu Lu, Kai-hang Ye, Siqi Zhang et al. Amorphous type FeOOH modified defective BiVO4 photoanodes for photoelectrochemical water oxidation. Chemical Engineering Journal, 2021, 428, 131027.
  • [9] JingzhenZhang,JunyuLang,YanWei,QianZheng,LiyanLiu,Yun-HangHu,BaoxueZhou,CongliYuan,MingceLong,Efficient photocatalytic H2O2 production from oxygen and pure water over graphitic carbon nitride decorated by oxidative red phosphorus,Applied Catalysis B: Environmental,2021, 120522.
  • [10] Rui-TingGao,XiaotianGuo,ShujieLiu,XueyuanZhang,XianhuLiu,YiguoSu,LeiWang.Ultrastable and high-performance seawater-based photoelectrolysis system for solar hydrogen generationDian. Applied Catalysis B: Environmental,10.1016/j.apcatb.202
  • [11] Rui-Ting Gao,Shujie Liu,Xiaotian Guo,Rongao Zhang,Jinlu He,Xianhu Liu,Tomohiko Nakajima,Xueyuan Zhang,Lei Wang,Pt-Induced Defects Curing on BiVO4 Photoanodes for Near-Threshold Charge Separation,Advanced Energy Materials,2021,2102384
  • [12] XiaosiWang,GuojuanChen,HengjiaWang,YuWu,XiaoqianWei,JingWen,LiuyongHu,WenlingGu,ChengzhouZhu,Imide modification coupling with NH2-MIL-53(Fe) boosts the photocatalytic performance of graphitic carbon nitride for efficient water remediation,Journal of Catalysis,192-200.
  • [13] Chenxi Wang, Jia Chen, Li Zhang, Yaqi Yang, M.H. Huang, Chao Chen, Chunyan Li, Yixi Xie, Pengcheng Zhao*, Junjie Fei*. Carbon, 2022, 198, 101-109.
  • [14] Qian Fu,Chenxi Wang, Jia Chen, Yilin Wang, Chunyan Li, Yixi Xie, Pengcheng Zhao*, Junjie Fei*. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022: 130456
  • [15] Yi Zhang, Jun Di, Xingwang Zhu, Mengxia Ji, Chao Chen, Yanan Liu, Lina Li, Tiange Wei, Huaming Li, JiexiangXia, Chemical bonding interface in Bi2Sn2O7/BiOBr S-scheme heterojunction triggering efficient N2 photofixation. Applied Catalysis B: Environmental 2023, 323, 122148.
  • [16] Yiming Zhao, Artem V. Kuklin, Hao Huang, Qian Zhang, Songrui Wei, Han Zhang, Chengtao Yu*, Ying Li*, Hans Ågren*, Lingfeng Gao*. Bismuth Nanoplatelets: Universal Synthetic Strategy and Emerging Application for PEC-Type Photodetectors. Materials Today Nano, 2023, 100349.
相关产品推荐