微型多孔材料
纳米复合材料
发光
光致发光
纳米材料
材料科学
自愈水凝胶
光热治疗
药物输送
毒品携带者
纳米技术
紫外线
控制释放
化学工程
紫外线
聚合物
生物相容性
荧光
作者
Parham Khoshbakht Marvi,Poushali Das,Sayan Ganguly,Xiaowu Shirley Tang,Seshasai Srinivasan,Amin Reza Rajabzadeh
标识
DOI:10.1021/acsapm.5c03885
摘要
The advent of photoluminescent nanocomposites is unlocking paradigms in advanced biosensing, drug delivery, and regenerative medicine. This research reports a facile one-pot synthesis of phenol-functionalized boron nitride carbon quantum dots (BNCQDs) through both hydrothermal and solvothermal routes, yielding an underexplored class of zero-dimensional nanomaterials with intrinsic bioactive and optical attributes. Water-derived BNCQDs [BNCQDs(W)] exhibited a blue-green emission (λ emission ≈ 510 nm at λ excitation = 420 nm) with nearly twice the photoluminescence intensity of their ethyl alcohol-derived counterparts, excellent thermal endurance with fluorescence retention across wide temperature gradients, and potent antioxidant and antibacterial activity. Leveraging these properties, BNCQDs(W) were integrated into photocurable methacrylated carboxymethyl cellulose/polyacrylamide semi-interpenetrating (semi-IPN) hydrogels via ultraviolet (UV) initiated polymerization, producing a viscoelastic network with optimized microporosity for prolonged water uptake and pH-responsive drug release. The optimal nanocomposite hydrogel combined strong mechanical resilience with 93.2% UV A, 98.2% UV B, and 99.8% UV C attenuation, sustained therapeutic release over 3 days with accelerated release at pH 8.5/7.4, linear real-time optical tracking of drug elution, and broad linear pH monitoring. Furthermore, digital light processing (DLP) printing enabled high-fidelity microporous architectures tailored for wound dressing and tissue regeneration. These multifunctional hydrogels unite the luminescence and bioactivity of BNCQDs with the structural adaptability of semi-IPN hydrogels, offering a scalable route to next-generation biomedical constructs with integrated sensing, protective, and therapeutic capabilities.
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