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創(chuàng)見|實干|卓越
與光同程,,做民族儀器企業(yè)

氙燈xenon light source

PLS-FX300HU高均勻性一體式氙燈光源

PLS-FX300HU High uniformity integrated xenon light source

產(chǎn)品中心:氙燈品牌:泊菲萊瀏覽量:1267
PLS-FX300HU高均勻性一體式氙燈光源輸出光功率密度限制值≥3000 mW/cm2,光強調(diào)節(jié)方式有電流調(diào)節(jié),、電動光闌兩種,,可滿足高強度均勻光的實驗需求,。
  • 產(chǎn)品介紹
  • 應(yīng)用領(lǐng)域
  • 文獻
  • 技術(shù)維護

關(guān)鍵特征

● 特為光電材料測試設(shè)計,,充分考慮光電極尺寸及輻照特性需求;

● 輸出矩形、均勻光斑,10×10~50×50 mm2連續(xù)可調(diào),;

● 輸出光斑的均勻性高,光斑尺寸≤20×20 mm2時,,可達A級太陽模擬器要求,,適用于光電轉(zhuǎn)化效率(IPCE)的測量;

● 輸出光功率密度限制值≥3000 mW/cm2(光斑大小10×10 mm2,調(diào)焦筒直接輸出),,可滿足高強度均勻光的實驗需求,;

● 光強調(diào)節(jié)方式:電流調(diào)節(jié)、電動光闌,,實現(xiàn)對輸出光強度精細化調(diào)節(jié),。

 

應(yīng)用領(lǐng)域

▲特別適用   ●較為適用  ○可以使用

▲ PEC光電化學       ▲ 太陽能電池測試       ▲ 膜光催化

● 光降解氣體污染物(如VOCs 、甲醛,、氮氧化物,、硫氧化物等)

● 光降解液體污染物(如染料、苯及苯系物等)

○ 光催化分解水制氫/氧       ○ 光催化全分解水       ○ 光催化CO2還原       ○ 光致變色       ○ 光合成     

光輸出特性

● 總光功率:50 W

● 光譜范圍:320~800 nm

● 配合濾光片:紫外光區(qū),,可見光區(qū)及窄帶光

● 光斑尺寸:輸出矩形光斑10×10~50×50 mm2連續(xù)可調(diào)

● 輻照不均勻性:<±4%

安全性

● 燈箱-電源箱一體式設(shè)計

● 風扇故障保護,風扇關(guān)機延時

● 過載過流自動斷電防護功能

光源穩(wěn)定性

● 直接測量光輸出變化的精密光學光反饋系統(tǒng)

● 長周期輻照不穩(wěn)定性:<2%(8 h)

● 輸出光不均勻性:±1%

● 基于微型CPU的集中數(shù)字化供電管理軟件控制

控制方式

● 工作模式:專用光控模式

電流限制值:21 A

● 燈泡(耗材)使用壽命:>1000 h(滿足光催化正常條件下的光強度要求)

 

代表文獻

廣州大學黃勇潮團隊引用PLS-FX300HU光源.png

內(nèi)蒙古大學王蕾團隊引用PLS-FX300HU光源.png

內(nèi)蒙古大學王蕾團隊引用PLS-FX300HU光源1.png

  • PEC光電化學
  • 太陽能電池測試
  • 膜光催化
  • 光降解氣體污染物
  • 光降解液體污染物
  • 光催化分解水制氫/氧
  • 光催化全分解水
  • 光催化CO2還原
  • 光致變色
  • 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.
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  • [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.
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