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細胞光毒性照射儀

尺寸適配標準細胞培養(yǎng)板（96孔/48孔/24孔板等）

★★★★★

市場價：詳詢

此儀器是專門設計用于細胞光毒性實驗、藥物光反應活性等實驗。

1. LED光源

250-1100nm范圍內(nèi)任意波長及白光可選
發(fā)光功率可調(diào)節(jié) (可達電功率200W，光功率密度400mW/cm²以上)
平面光源，發(fā)光均勻

2. 激光光源

多種波長可選 (808nm, 850nm, 940nm等)
發(fā)光功率可調(diào) (可達電功率150W，光功率密度1000mW/cm²以上)
多孔照射，可選36，96孔激光光束。

其他波長或特殊需求可接受定制，請掃以下微信二維碼聯(lián)系：

咨詢

光動力治療和光熱力治療均是現(xiàn)代醫(yī)學中相對新穎的無創(chuàng)治療方法，利用靶向識別技術將光敏劑或光熱材料聚集于生物體內(nèi)病變位點，依靠光照激活相關材料的生物毒性，從而達到治療的目的。相對不同的是其作用機制，如光動力治療是采用光敏劑在光照下產(chǎn)生具有生物毒性的單態(tài)氧等活性物質(zhì)，氧化損傷靶向病變位點癌細胞、病毒、細菌、真菌等；光熱治療是利用具有較高光熱轉(zhuǎn)換效率的材料在光照下轉(zhuǎn)換光能為熱能殺死病變位點細胞等。但是以上治療方法還沒有被廣泛運用的原因是目前光敏劑和光熱材料還存在或多或少的缺點，比如生物相容性，生物降解性及代謝率等。為了開發(fā)新型光敏劑和光熱材料，科研工作者往往需要大量的體外細胞實驗數(shù)據(jù)來支撐和評價他們設計藥物的相關作用機制和作用效果。

因此，本公司研發(fā)了此款專門用于光敏劑和光熱材料的細胞光毒性試驗的體外細胞光毒性照射儀。此儀器兼容激光光源、LED光源，其體積小巧，與標準96孔細胞培養(yǎng)板完美配合。該產(chǎn)品可以實現(xiàn)對所有細胞培養(yǎng)孔的均勻照射，減少了平行試驗次數(shù)，增加科研工作者們的實驗精確度和效率。

激光光源 —— 每孔激光功率可達150W以上，且光功率密度達1000mW/cm2以上。
LED光源 —— 采用面光源，發(fā)光均勻，功率可達200W以上，且光功率密度達400mW/cm2以上。

除此之外，產(chǎn)品還增加了一些區(qū)別于傳統(tǒng)光毒性照射儀的靈活便捷功能，如發(fā)光強度可調(diào)，可定時控時，波長或發(fā)光位置可預先定制，并配有亞克力燈罩保護操作者的眼睛等。本產(chǎn)品已申請國家專利，專利號為：ZL 2019 2 1023644.7。

至今，已經(jīng)有很多國內(nèi)外科研單位和醫(yī)療衛(wèi)生機構（包括中山大學、北京大學、香港城市大學、中國科學院上海藥物研究所、香港大學、清華大學、英國The University of Sheffield、南京大學、華南理工大學、中國醫(yī)學科學院藥物研究所、福州大學、深圳大學、廣西醫(yī)科大學、廣州醫(yī)科大學、廣東工業(yè)大學和深圳人民醫(yī)院等）使用本公司的產(chǎn)品進行細胞光毒性、藥物光反應活性實驗，并成功在國際高水平學術期刊上發(fā)表文章（包括J. Am. Chem. Soc., Angew. Chem. Int. Ed., JACS Au, Chem. Sci., Inorg. Chem., Journal of Nanobiotechnology 等）。

使用本公司細胞光毒性照射儀所發(fā)表的部分文章列表：


論文詳情	合作單位	儀器型號與波長
1. H.-J. Luo, B. Cao, A. S.-C. Chan, R. W.-Y. Sun, T.-T. Zou (2020), Cyclometalated Gold(III)‐Hydride Complexes Exhibit Visible Light‐Induced Thiol Reactivity and Act as Potent Photo‐Activated Anti‐Cancer Agents. Angew. Chem. Int. Ed., 2020, 59, 11046-11052. doi: 10.1002/anie.202000528	中山大學	LED款 365, 420, 460nm
2. Z.-S. Yang, Y. Yao, A. C.Sedgwick, C. Li, Y. Xia, Y. Wang, L. Kang, H. Su, B.-W.Wang, S. Gao, J. L.Sessler, J.-L. Zhang (2020), Rational Design of An“All-In-One”Phototheranostic. Chem. Sci. 2020, 11, 8204–8213. doi: 10.1039/D0SC03368E	北京大學	LED款 760nm
3. Y.-Y. Ning, Y.-W. Liu, Z.-S. Yang, Y.-H. Yao, L. K., J. L. Sessler, and J.-L. Zhang (2020), Split and Use: Structural Isomers for Diagnosis and Therapy. J. Am. Chem. Soc. 2020, 142, 6761–6768. doi: 10.1021/jacs.0c01155	北京大學	LED款白光
4. M.-L Zhu, H. Zhang, G.-L. Ran, D. N. Mangel, Y.-H. Yao, R.-J. Zhang, J. Tan, W.-K. Zhang, J.-X. Song, J. L. Sessler, and J.-L. Zhang (2021), Metal Modulation: An Easy-to-Implement Tactic for Tuning Lanthanide Phototheranostics. J. Am. Chem. Soc. 2021, 143, 19, 7541–7552. doi: 10.1021/jacs.1c03041	北京大學	LED款 690nm
5. J.-H. Zhu, S.-M. Yiu, B. Z. Tang,* and K. K.-W. Lo (2021), Luminescent Neutral Cyclometalated Iridium(III) Complexes Featuring a Cubic Polyhedral Oligomeric Silsesquioxane for Lipid Droplet Imaging and Photocytotoxic Applications. Inorg. Chem. 2021, 60, 15, 11672–11683. doi: 10.1021/acs.inorgchem.1c01728	香港城市大學	LED款 365nm
6. H.-Y. Wang, Y.-X. Zhang, K.-X. Zeng, J.-L. Qiang, Y. Cao, Y.-X. Li, Y.-S. Fang, Y.-Y Zhang, and Y.-Y. Chen (2021), Selective Mitochondrial Protein Labeling Enabled by Biocompatible Photocatalytic Reactions inside Live Cells. JACS Au 2021, 1, 7, 1066-1075. doi: 10.1021/jacsau.1c00172	中國科學院上海有機所	LED款 365, 468, 515nm
7. Yan Zhang, Shouguo Peng, Songwen Lin, Ming Ji, Tingting Du, Xiaoguang Chen, Heng Xu (2022), Discovery of a novel photoswitchable PI3K inhibitor toward optically-controlled anticancer activity. Bioorg. Med. Chem. 72 (2022) 116975. doi: 10.1016/j.bmc.2022.116975	中國醫(yī)學科學院 & 北京協(xié)和醫(yī)學院	LED款 365, 520nm
8. Nina Xue, Ying Liu, Jing Jin, Ming Ji and Xiaoguang Chen (2022), Chlorogenic Acid Prevents UVA-Induced Skin Photoaging through Regulating Collagen Metabolism and Apoptosis in Human Dermal Fibroblasts. Int. J. Mol. Sci. 2022, 23, 6941. doi: 10.3390/ijms23136941	中國醫(yī)學科學院 & 北京協(xié)和醫(yī)學院	LED款 365nm
9. Zhongxian Fan, Jiaen Xie, Dr. Tumpa Sadhukhan, Chao Liang, Can Huang, Wenqing Li, Tingxuan Li, Dr. Pingyu Zhang, Dr. Samya Banerjee, Dr. Krishnan Raghavachari, Dr. Huaiyi Huang, Highly Efficient Ir(III)-Coumarin Photo-Redox Catalyst for Synergetic Multi-Mode Cancer Photo-Therapy. Chem. Eur. J. 2022, 28, e202103346. doi: 10.1002/chem.202103346	中山大學	LED款 465, 525nm
10. Kaihong Du, Guiquan Zhang, Dong He, Rong Hu, Anjun Qin, Ben Zhong Tang, The development of near-infrared II fluorophore for tumor drug resistance reversal based on photothermal therapy. ChemRxiv Oct 25, 2023 Version 1. doi: 10.26434/chemrxiv-2023-ljvrl	香港中文大學 (深圳)	激光款 808nm
11. Chunyong Ding, Mengyan Du, Zhi Xiong, Xue Wang, Hongji Li, Ende He, Han Li, Yijing Dang, Qing Lu Shicong Li, Ruoxuan Xiao, Zhiai Xu, Lili Jing,* Liufu Deng, Xiyuan Wang, Meiyu Geng, Zuoquan Xie* and Ao Zhang, Photochemically controlled activation of STING by CAIX-targeting photocaged agonists to suppress tumor cell growth. Chem. Sci., 2023*, 14, 5956-5964. doi: 10.1039/D3SC01896B	上海交通大學	LED款 450nm
12. Yan Zhang, Jialing Deng, Hua Tian, Haixiang Qi, Tianning Xiong, Songwen Lin, Yi Dong, Lijun Luo, Deyu Wu, Kehui Zhang, Ming Ji, Tingting Du,* Li Sheng,* Xiaoguang Chen, and Heng Xu, Design, Synthesis, and Bioevaluation of Novel Reversibly Photoswitchable PI3K Inhibitors Based on Phenylazopyridine Derivatives toward Light-Controlled Cancer Treatment. J. Med. Chem.* 2024, 67, 5, 3504–3519. doi: 10.1021/acs.jmedchem.3c01864	中國醫(yī)學科學院 & 北京協(xié)和醫(yī)學院	LED款 365, 435nm
13. Chun-Mei Zeng, Song-Yu Luo, Xiao Wang, Feng-Lin Cao, Ze-Sheng Zhang, Prof. Wen-Hua Zhang, Chun-Lei Dai, Prof. David J. Young, A Porphyrin-Based 3D Metal-Organic Framework Featuring [Cu8Cl6]10+ Cluster Secondary Building Units: Synthesis, Structure Elucidation, Anion Exchange, and Peroxidase-Like Activity. Chem. Asian J. 2024, e202400237. doi: 10.1002/asia.202400237	蘇州大學	LED款 365nm
14. Li Wei, Rajesh Kushwaha, Tumpa Sadhukhan, Haorui Wu, Anyi Dao, Zhishang Zhang, Haotu Zhu, Qiufang Gong, Jiaxi Ru, Chao Liang, Pingyu Zhang,* Samya Banerjee,* and Huaiyi Huang. Dinuclear Tridentate Ru(II) Complex with Strong Near-Infrared Light-Triggered Anticancer Activity. J. Med. Chem.* 2024, 67, 13, 11125–11137. doi: 10.1021/acs.jmedchem.4c00624	中山大學	LED款全光譜白光
15. Zhongyu Wang,⊥ Li Wei,⊥ Junfeng Lin,⊥ Can Huang, Huitong Chen, Dong Fan, Weiyu Hu, Jing Liu,* Huaiyi Huang,* Zongming Wang,* and Xin Wang. Donor?Acceptor?Donor Strategy Rouses the Photodynamic Therapy Anticancer Activity of a Bis-terpyridyl Ru(II) Complex. J. Med. Chem.* 2024, 67, 15, 13435-13445. doi: 10.1021/acs.jmedchem.4c01307	中山大學	LED款 595nm
16. Jiangnan Shi, Guoqing Cui, Yaqi Jin, Boyu Mi, Kenan Liu, Linqian Zhao, Kewang Bao, Ziyao Lu, Jie Liu, Yuwei Wang, Hui He, Zhengqing Guo. Guo, Glutathione-Depleted Photodynamic Nanoadjuvant for Triggering Nonferrous Ferroptosis to Amplify Radiotherapy of Breast Cancer. Adv. Healthcare Mater. 2024, 13, 2402474. doi: 10.1002/adhm.202402474	蘇州大學	LED款 660nm
17. Lin, J., Cai, X., Zou, F., Xie, W., Zou, Z., Chen, M., Zhang, Y., He, H., Xu, Q., Zhong, G., Cai, S., Wu, Z., Lu, J., Ye, J., Liang, Y., Huang, Y., Zhuo, Y., Yang, H. and Zhong, W. (2025), Fluorescent Nanoparticles Achieve Efficient Photothermal Conversion and Enhanced Antitumor Efficacy Through Intermolecular Aggregation-Caused Quenching. Aggregate, 6: e723. doi: 10.1002/agt2.723	廣州第一人民醫(yī)院	激光款 808nm
18. J. Xu, L. C. Lee, A. M. Yip, G. Xu, P. K. Leung and K. K. Lo, Luminescent iridium(III) 2-cyanobenzothiazole complexes as site specific labels to afford peptide-based phosphorogenic probes and hydrogels for enzyme activity sensing, cancer imaging and photodynamic therapy. Inorg. Chem. Front., 2025,12, 2266-2279. Inorg. Chem. Front., 2025, doi: 10.1039/D4QI03276D	香港城市大學	LED款 450nm