Congratulation on our MS By Yang Y etal published by C C Reviews(2022 SCI IF=24.833)
发布日期:2022年06月30日 阅读: 次
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| 祝贺杨洋博士后的论文在 Coordination Chemistry Reviews(2022 SCI IF=24.833)刊出: Yang Yang1, Zhuotong Zeng1, Eydhah Almatrafi1, Danlian Huang, Chen Zhang, Weiping Xiong, Min Cheng, Chengyun Zhou, Wenjun Wang, Biao Song, Xiang Tang,Guangming Zeng*, Rong Xiao*, Zhi Li*.Core-shell structured nanoparticles for photodynamic therapy-based cancer treatment and related imaging.Coordination Chemistry Reviews(2022 SCI IF=24.833).2022 (458) 214427:1-24. 特别高兴我们这篇关于癌症的论文被CCR(SCI2021 IF=22.315)接受!感谢大家,这是我们(Hunan University,Central South University ,University of Alberta, 和 King Abdulaziz University)在环境健康/环境医学方面工作的里程碑的标志性的合作成果! 相信这篇论文将开拓我们学院环境健康/环境医学新领域,是新年最好的礼物! 审稿人对我们这篇论文的评价极高(请见附件):"The manuscript submitted by Yang Yang and et al. is of very high interest for Coordination Chemistry Reviews. Indeed it comprehensively reviews PDT-based core-shell nanoparticles for cancer treatments", "Thank you for hard work",et al. 这篇论文 3 位年轻博士杨洋博士,曾茁桐博士和 Eydhah 博士贡献最大! 谢谢 3 位年轻博士!江山代有人才出啊! Congratulation on our MS is published by Coordination Chemistry Reviews(2021 SCI IF=22.315)for publication: Yang Yang1, Zhuotong Zeng1, Eydhah Almatrafi1, Danlian Huang, Chen Zhang, Weiping Xiong, Min Cheng, Chengyun Zhou, Wenjun Wang, Biao Song, Xiang Tang,Guangming Zeng*, Rong Xiao*, Zhi Li*.Core-shell structured nanoparticles for photodynamic therapy-based cancer treatment and related imaging.Coordination Chemistry Reviews(2022 SCI IF=24.833). 2022 (458) 214427:1-24. Very happy our this MS on cancer is accepted by CCR (SCI2021 IF=22.315), which is a landmark result of our(Hunan University,Central South University ,University of Alberta, and King Abdulaziz University) cooperation research work in environmental health/environmental medicine! We are sure that this paper will help us to open up a new research areas in environmental health/environmental medicine for our college, which is a best New Year gift! The anonymous reviewers give our paper very high evaluation(see the attachment please):"The manuscript submitted by Yang Yang and et al. is of very high interest for Coordination Chemistry Reviews. Indeed it comprehensively reviews PDT-based core-shell nanoparticles for cancer treatments", "Thank you for hard work",et al. Young Dr. Yang Yang, Dr Zeng Zhuotong and Dr Eydhah Almatrafi do the biggest contribution to this MS. Thank you Dr. Yang Yang! Thank you, Dr. Zeng Zhuotong! Thank you Dr Eydhah Almatrafi! There is always new excellent young talent generation to come out! / --------------原始邮件-------------- 发件人:"Coordination Chemistry Reviews "; 发送时间:2022年1月6日(星期四) 上午9:54 收件人:"曾光明" 主题:Decision on submission to Coordination Chemistry Reviews ----------------------------------- Manuscript Number: CCR-D-21-00896 Core-shell structured nanoparticles for photodynamic therapy-based cancer treatment and related imaging Dear Professor Guangming Zeng , Thank you for submitting your manuscript to Coordination Chemistry Reviews. I have completed my evaluation of your manuscript. The reviewers recommend reconsideration of your manuscript following minor revision and modification. I invite you to resubmit your manuscript after addressing the comments below. Please resubmit your revised manuscript by Feb 19, 2022. When revising your manuscript, please consider all issues mentioned in the reviewers' comments carefully: please outline every change made in response to their comments and provide suitable rebuttals for any comments not addressed. Please note that your revised submission may need to be re-reviewed. To submit your revised manuscript, please log in as an author at https://www.editorialmanager.com/ccr/, and navigate to the "Submissions Needing Revision" folder under the Author Main Menu. Coordination Chemistry Reviews values your contribution and I look forward to receiving your revised manuscript. Kind regards, Zijian Guo Associate Editor Coordination Chemistry Reviews Editor and Reviewer comments: Reviewer #1: The manuscript submitted by Yang Yang and et al. is of very high interest for Coordination Chemistry Reviews. Indeed it comprehensively reviews PDT-based core-shell nanoparticles for cancer treatments. Concerning reviews on PDT, see: Recent Strategies to Develop Innovative Photosensitizers for Enhanced Photodynamic Therapy, Chem. Rev. 2021, 121, 21, 13454-13619. Perspectives could be added towards antibacterial PDT, see: Functionalizing the Mesoporous Silica Shell of Upconversion Nanoparticles To Enhance Bacterial Targeting and Killing via Photosensitizer-Induced Antimicrobial Photodynamic Therapy, ACS Applied Biomaterials, 2018, 1, 4, 1028-1036. For Hybrid core-shell structured nanoparticles with organosilica, see: Timely coordinated phototherapy mediated by mesoporous organosilica coated triangular gold nanoprisms, Wenfei Liu et al., J. Mater. Chem. B, 2018,6, 3865-3875. For the part dealing with hypoxia see: Hypoxia and PDT -L. Huang et al., Photodynamic therapy for hypoxic tumors: Advances and perspectives, Coordination Chemistry Reviews 438 (2021) 213888 -F. Wei et al. Oxygen self-sufficient photodynamic therapy, Coordination Chemistry Reviews 432 (2021) 213714 -L. Larue et al., Fighting Hypoxia to Improve PDT, Pharmaceuticals 2019, 12, 163 -Z. Shen et al. Strategies to improve photodynamic therapy efficacy by relieving the tumor hypoxia environment, NPG Asia Materials ( 2021) 13:39 Line 547 please check the wavelength for Ce6. For immunotherapy, see: Phototherapy meets immunotherapy: a win-win strategy to fight against cancer, Jianhua Zou, et al. nanophotonics-2021-0209 Thank you for hard work Reviewer #2: Comments: In this review, the authors concluded the categories of core-shell structured nanoparticles, followed by the functions of these nanoparticles in PDT of cancer, including photosensitizer delivery vehicle, energy transducer, photosensitizer and hypoxic tumor microenvironment modulator. Then the applications of core-shell structured particles for photodynamic synergistic therapy of cancer are highlighted as well as their imaging applications as contrast agents. Finally, perspectives on the major challenges and opportunities are presented for better developments in the future research. This review provides a panorama of the latest achievement in the developments of core-shell structured nanoparticles for PDT-based cancer treatment and related imaging. I recommend this manuscript could be published in Coordination Chemistry Reviews after minor revisions noted. I have some comments for the authors, as follows: 1. Compared with Janus structure, the advantage of core-shell structured nanoparticles for PDT should be presented. 2. The case of yolk-like and hollow mesoporous core-shell structure nanoparticles should be provided, and some reports confirmed that the yolk-like and hollow mesoporous core-shell structure nanoparticles are beneficial to the energy transducers. 3. The resolution of the Figure should be improved, and grammar and spelling mistakes should be detected in the whole manuscript. 4. some latest or representative progresses on emerging core-shell structure nanoparticles should be introduced in the section of categories of core-shell structure nanoparticles. Such as ACS nano 12 (11), 11000-11012; Biomaterials 147, 39-52. And the Janus structure could be presented for comparison, including ACS Nano 2021, 15, 7, 12342-12357 5. In the part of core-shell structure nanoparticles for imaging, compared with single nanoparticles, what's the advantages of core-shell structure nanoparticles for imaging. Whether the imaging could be divided into the direction of nanoparticles with unique performance and activated by specific substance in tumor microenvironment or not. If possible, a detailed discussion, I believe, would be more meaningful. Accepted MS:Core-shell structured nanoparticles for photodynamic therapy-based cancer treatment and related imaging Accepted MS:Core-shell structured nanoparticles for photodynamic therapy-based cancer treatment and related imaging> |
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发布时间:2022-06-30 |
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