A novel strategy of constructing 2D supramolecular organic framework sensor for the identification of toxic metal ions

Two novel two-dimensional(2D)supramolecular organic frameworks were fabricated in water based on the encapsulation-enhanced donor-acceptor interaction between the methyl viologen(MV)units,methoxy naphthyl(MN)units,and CB[8].The tetraphenylethylene(TPE)derivatives 1 with four MV units were employed as rigid building blocks and the two MN units modified oligoethylene glycol derivatives 2 and 3 served as flexible edges,respectively.The obtained two SOFs have obvious sheet-like structures and exhibit fluorescence emission at 350-500 nm.In addition,these two SOFs were employed for the luminescent detection of Cr(Ⅵ)and Mn(Ⅶ)in aqueous solutions,and the detection limits of CrO_(4)^(2-),Cr_(2)_(O)_(7)^(2-),and MnO_(4)
were calculated in a very low concentration range,indicating that these two SOFs can serve as a potential sensor for Cr(Ⅵ)and Mn(Ⅶ)detection in water.This work constructs two SOFs in an aqueous solution through a facile method and further enriches the applications of SOFs.

光响应有机模块自组装导致的氧自由基转化及其光催化应用

在光催化反应中实现对活性氧物种的单线态氧和超氧阴离子自由基的有效控制仍然是一个巨大挑战.本工作报道了一个从光敏模块构筑主客体超分子有机框架(SOF)策略,有效地实现了单线态氧到超氧阴离子自由基的转化.该TPA-BP-SOF结构中的光敏模块由四个4,4′-联吡啶盐(BP)单元修饰的苯基桥接双(三苯胺)衍生物(TPA-BP)构成.来自于不同的TPA-BP中的两个BP单元通过与葫芦[8]脲(CB[8])发生首尾相连的强络合作用,形成了具有周期性孔结构和均匀溶解度的二维超分子有机框架纳米片结构.与单体TPA-BP中检测到的生成单线态氧的能量转移机制不同,通过主客体相互作用形成的TPA-BP-SOF能够有效促进电子转移高效产生超氧阴离子自由基.同时,该TPA-BP-SOF生成的超氧阴离子自由基能有效地用于水相芳基硼酸的氧化羟基化和N-苯基四氢异喹啉的氧化,收率分别高达88%和83%.本研究提出了一种利用SOF实现II型光敏剂向I型光敏剂有效转化的新方法,成功展示了其在光催化有机转化中的实际应用.

Nitrogen-doped carbon dots as photocatalysts for organic synthesis:Effect of nitrogen content on catalytic activity

Regulating the doping of carbon dots(CDs)and the generation of reactive oxygen species(ROS)is essential to selectively control their application in photocatalytic organic reactions.This study successfully synthesized five newly developed nitrogen-doped carbon dots(CDs 1-5)with varying nitrogen content,which have the ability to generate ROS when exposed to light radiation,specifically superoxide anion radicals(O_(2)•-)and singlet oxygen(^(1)O_(2)).The utilization of the aforementioned nitrogen-doped CDs as photocatalysts enables the realization of their potential in facilitating efficient photocatalytic organic conversion.Simultaneously,it was observed that the photocatalytic efficiency exhibited a gradual decrease when the nitrogen content in the CDs increased.In order to provide more evidence for this claim,we employed a set of five CDs in the context of photocatalytic dehalogenation ofα-bromoacetophenone,photocatalytic oxidative coupling reaction of amines to imines,photooxidation reaction of sulfides to sulfoxides,and cross-dehydrogenation coupling(CDC)reaction,in which it was further observed that there was a steady decrease in the yields of photocatalytic organic reactions as the nitrogen content in CDs increased.Notably,CDs 1 exhibited the best photocatalytic efficiency,thereby reinforcing the hypothesis that a higher nitrogen content corresponds to a decreased catalytic efficiency.This study not only investigates the impact of the nitrogen content on the catalytic performance of CDs,but also offers valuable insights for the future utilization of CDs for photocatalytic organic reactions in water.