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Weili Si
Researcher at Nanjing Tech University
Publications - 64
Citations - 3537
Weili Si is an academic researcher from Nanjing Tech University. The author has contributed to research in topics: Photothermal therapy & Photodynamic therapy. The author has an hindex of 27, co-authored 51 publications receiving 2368 citations. Previous affiliations of Weili Si include Center for Advanced Materials.
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Stretchable, Transparent, and Self-Patterned Hydrogel-Based Pressure Sensor for Human Motions Detection
TL;DR: In this paper, a binary networked conductive hydrogel is prepared using acrylamide and polyvinyl alcohol, and an ultrastretchable pressure sensor with biocompatibility and transparency is fabricated cost effectively.
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Diketopyrrolopyrrole-Triphenylamine Organic Nanoparticles as Multifunctional Reagents for Photoacoustic Imaging-Guided Photodynamic/Photothermal Synergistic Tumor Therapy
TL;DR: The photothermal conversion mechanism of small organic NPs is illuminated and the promising application of DPP-TPA NPs in PAI guided phototherapy is demonstrated.
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Organic Dye Based Nanoparticles for Cancer Phototheranostics.
TL;DR: The recent progress of organic dye-based NPs for cancer phototheranostic applications is summarized, which extends the anticancer arsenal and holds promise for clinical uses in the near future.
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pH-Triggered and Enhanced Simultaneous Photodynamic and Photothermal Therapy Guided by Photoacoustic and Photothermal Imaging
Qianyun Tang,Wanyue Xiao,Chuhan Huang,Weili Si,Jinjun Shao,Wei Huang,Peng Chen,Qi Zhang,Xiaochen Dong +8 more
TL;DR: A pH- sensitive photosensitizer has been synthesized through introducing a pH-sensitive receptor (dimethylaminophenyl unit) onto the aza-BODIPY core (abbreviated as NAB) through enveloping hydrophobic NAB with amphiphilic DSPE-mPEG2000.
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Highly stretchable and autonomously healable epidermal sensor based on multi-functional hydrogel frameworks
Gang Ge,Wei Yuan,Wen Zhao,Yao Lu,Yizhou Zhang,Wenjun Wang,Peng Chen,Wei Huang,Wei Huang,Weili Si,Xiaochen Dong +10 more
TL;DR: In this article, a highly stretchable and healable somatosensory platform with excellent low temperature tolerance was demonstrated by adopting self-healing hydrogels as building blocks, both metal-coordinated bonds and tetrahedral borate interactions within the binary-networked frameworks account for the satisfactory stretchability, remarkable healed strain (∼497% after 6 h) and high healing efficiency (∲90.4%).