Gel polymer electrolytes(GPEs)present the best compromise between mechanical and electrochemical properties,as well as an improvement of the cell safety in the framework of Li metal batteries production.However,the po...Gel polymer electrolytes(GPEs)present the best compromise between mechanical and electrochemical properties,as well as an improvement of the cell safety in the framework of Li metal batteries production.However,the polymerization mechanism typically employed relies on the presence of an initiator,and is hindered by oxygen,thus impeding the industrial scale-up of the GPEs production.In this work,an UV-mediated thiol-ene polymerization,employing polyethylene glycol diacrylate(PEGDA)as oligomer,was carried out in a liquid electrolyte solution(1M LiTFSI in EC/DEC)to obtain a self-standing GPE.A comparative study between two different thiol-containing crosslinkers(trimethylolpropane tris(3-mercaptopropionate)-T3 and pentaerythritol tetrakis(3-mercaptopropionate)-T4)was carried out,studying the effects of the crosslinking environment and the GPE production methods on the cell performances.All the produced GPEs present an excellent room temperature ionic conductivity above 1 mS cm^(-1),as well as a wide electrochemical stability window up to 4.59 V.When cycled at a current density of C/10 for more than 250 cycles,all of the tested cells showed a stable cycling profile and a specific capacity>100 mAh g^(-1),indicating the suitability of such processes for up-scaling.展开更多
In this study, a novel approach by combining base-catalyzed epoxide ring-opening and thiol-ene click chemistry is presented for the side-chain modification of dextran. The vinyl-modified dextran is prepared by a basic...In this study, a novel approach by combining base-catalyzed epoxide ring-opening and thiol-ene click chemistry is presented for the side-chain modification of dextran. The vinyl-modified dextran is prepared by a basic epoxide ring opening reaction of allyl glycidyl ether in 0.1 mol/L NaOH, followed by thiol-addition click reaction of three model sulfhydryl compounds using water-soluble Irgacure 2959 as the photoinitiator, leading to side-chain functionalized dextran modified with carboxyl, bidentate dicarboxyl or amino groups. This is the first example of combining epoxide ring-opening and thiol- ene click chemistry for side-chain modification of dextran in aqueous media. Importantly, it may also be extended as a convenient and efficient method for the side-chain modification of other polysaccharides.展开更多
To improve shrink-proofing performance and hydrophilicity of wool fabrics, the wool fibers were modified by poly(ethylene glycol) dimethacrylate(PEGDMA) through thiol-ene click chemistry reaction. Firstly, wool fabric...To improve shrink-proofing performance and hydrophilicity of wool fabrics, the wool fibers were modified by poly(ethylene glycol) dimethacrylate(PEGDMA) through thiol-ene click chemistry reaction. Firstly, wool fabrics were reduced at room temperature with a high-efficiency disulfide bond reducing agent, tris(2-carbonxyethyl) phosphine hydrochloride(TCEP). Then the thiol-ene click chemistry reaction was initiated by dimethyl 2, 2’-azobis(2-methylpropionate)(AIBME) through the heating method. Fourier transform infrared(FTIR) spectroscopy, Raman spectroscopy, and scanning electron microscopy test results all showed that PEGDMA was successfully grafted onto wool fabric surface. Physical properties, hydrophilicity, and shrink-proofing performance were assessed. The wetting time of PEGDMA grafted wool fabrics decreased to about 3 s. After being grafted with PEGDMA, the felting shrinkage of wool fabrics rapidly decreased to about 8%. The anti-pilling properties of wool fabrics were also greatly improved to 5 class after 2 000 times of friction. Meanwhile, the load retention rate of fabrics could reach 90%. It provides a method of wool modification to improve hydrophilicity and anti-felting performance.展开更多
Several water-soluble calix[4]arenes were synthesized via radical addition reaction between thiols and alkenes under UV lamp irradiation(λ= 365 nm) in good yields.The structures of these compounds synthesized herei...Several water-soluble calix[4]arenes were synthesized via radical addition reaction between thiols and alkenes under UV lamp irradiation(λ= 365 nm) in good yields.The structures of these compounds synthesized herein were fully confirmed by 1 H NMR.ES1-MS and elemental analysis.展开更多
Hypoxia in the tumor microenvironment(TME)greatly limits the tumor-killing therapeutic efficacy of sonodynamic therapy(SDT);this phenomenon is further exacerbated by increased glutathione(GSH)levels in cancer cells.Si...Hypoxia in the tumor microenvironment(TME)greatly limits the tumor-killing therapeutic efficacy of sonodynamic therapy(SDT);this phenomenon is further exacerbated by increased glutathione(GSH)levels in cancer cells.Simultaneously,cancer starvation therapy is increasingly recognized nowadays as a promising clinical translation,but the efficacy of glucose oxidase(GOx)-based starvation therapy is also limited by the lack of oxygen in the tumor.Glyceraldehyde-3-phosphate dehydrogenase(GAPDH)is a key glycolytic enzyme and can therefore be a target for starvation therapy in the absence of oxygen engagement.Here,we proposed thiol-ene click reactions based on a two-dimensional metal-organic framework(MOF)modification for tumor treatments to enable the combination of SDT and starvation therapy.Experimental studies demonstrated that the prepared material could consume GSH and GAPDH free from oxygen in TME,which benefited from the thiol-ene click reactions between the MOFs and thiol substances in cancer cells.Further experiments in vitro and in vivo indicated the prepared MOF materials could kill cancer cells efficiently.This study is expected to create a promising avenue for thiol-ene click reactions in SDT and starvation therapy for cancer.展开更多
Control crosslink network and chain connectivity are essential to develop shape memory polymers(SMPs)with high shape memory capabilities,adjustable response temperature,and satisfying mechanistical properties.In this ...Control crosslink network and chain connectivity are essential to develop shape memory polymers(SMPs)with high shape memory capabilities,adjustable response temperature,and satisfying mechanistical properties.In this study,novel poly(ε-caprolactone)(PCL)-poly(2-vinyl)ethylene glycol(PVEG)copolymers bearing multi-pendant vinyl groups is synthesized by branched-selective allylic etherification polymerization of vinylethylene carbonate(VEC)with linear and tetra-arm PCLs under a synergistic catalysis of palladium complex and boron reagent.Facile thiol-ene photo-click reaction of PCL-PVEG copolymers with multifunctional thiols can rapidly access a serious crosslinked SMPs with high shape memory performance.The thermal properties,mechanical properties and response temperature of the obtained SMPs are tunable by the variation of PCL prepolymers,vinyl contents and functionality of thiols.Moreover,high elastic modulus in the rubbery plateau region can be maintained effectively owing to high-density topological networks of the PCL materials.In addition,the utility of the present SMPs is further demonstrated by the post-functionalization via thiol-ene photo-click chemistry.展开更多
RNA binding proteins(RBPs) are a crucial class of proteins that interact with RNA and play a key role in various biological process.Deficiencies or abnormalities of RBPs are closely linked to the occurrence and progre...RNA binding proteins(RBPs) are a crucial class of proteins that interact with RNA and play a key role in various biological process.Deficiencies or abnormalities of RBPs are closely linked to the occurrence and progression of numerous diseases,making RBPs potential therapeutic targets.However,the limited tissue penetration of 254 nm UV irradiation makes it difficult to efficiently crosslink weak and dynamic RNA-protein interactions in mammal tissues.Additionally,RNA degradation in metal catalyzed click reaction further hinders the enrichment of RNA-protein complexes(RPCs).Due to these inherent limitations,globally profiling the RNA binding proteome in mammal organs has long been a challenge.Herein,we proposed a novel method,which utilized a dual crosslinking with formaldehyde and 254 nm UV irradiation,metabolic labeling and metal-free thiol-yne click reaction to enable large-scale enrichment and identification of RBPs in mouse liver,called FTYc_UV.In this method,formaldehyde is first used to crosslink the crude RNA-protein complexes(cRPCs) in situ to address the problem of poor tissue penetration of 254 nm UV irradiation.Furthermore,this method integrates metabolic labeling with a metal-free thiol-yne click reaction to achieve non-destructive RNA tagging.After specifically RNA-RBPs crosslinking by 254 nm UV irradiation in tissue lysates,formaldehyde decrosslinking is employed to remove non-specific proteins,leading to effective enrichment of RPCs from mouse liver and thereby overcoming the poor specificity of formaldehyde crosslinking.Application of FTYc_UV in mouse liver successfully identified over 1600 RBPs covering approximately 75 % of previously reported RBPs.Furthermore,420 candidate RBPs,including 151metabolic enzymes,were also obtained,demonstrating the sensitivity of FTYc_UV and the potential of this method for in-depth exploration of RNA-protein interactions in biological and clinical research.展开更多
The preparation and functionalization of polymeric capsules attract intense attention due to their application in various areas.Herein we presented an amphiphilic alternating copolymer(ACP)-based microcapsule which is...The preparation and functionalization of polymeric capsules attract intense attention due to their application in various areas.Herein we presented an amphiphilic alternating copolymer(ACP)-based microcapsule which is both robust and readily-functionalized through interfacial click polymerization.A water-in-oil emulsion was constructed to act as the reaction medium,the hydrophilic 1,3-butadiene diepoxide(BDE)in water phase reacted with the oleophilic 1,4-dibutanedithiol(BDT)in oil phase at the water-oil interface to form the amphiphilic ACP named poly(2,3-dihydroxy butylene-alt-butylene dithioether)(abbreviated as P(DHB-a-BDT)below),which would deposite in situ to form the micro-sized capsules.Significantly,the dried capsules are robust enough to be rehydrated once the water was added and almost restored their original morphologies.Further elucidation showed that the Young's modulus of these capsules exceeded 1 GPa.As long as we know,it is the first time for the mechanical properties of the ACP-based microstructures being investigated.Besides,functionalization could be achieved simultaneously with the formation process.As a proof of concept,positive-charged capsules were successfully obtained through click copolymerization.Stemming from the unique characteristics of amphiphilic ACPs which combined both merits of click chemistry and interfacial reactions,all these features of the current method as well as the resultant capsules may promote the application of the polymeric capsules.展开更多
Gel polymer electrolytes(GPEs) are considered to be one most promising alternative to liquid electrolytes due to their suitability for creating safe and durable solid-state lithium-metal batteries. However, the mechan...Gel polymer electrolytes(GPEs) are considered to be one most promising alternative to liquid electrolytes due to their suitability for creating safe and durable solid-state lithium-metal batteries. However, the mechanical properties of GPEs usually deteriorate dramatically when polymer matrices are plasticized by a liquid electrolyte, which leads to significant loss of battery performance. Therefore, the long-term structural integrity and good mechanical strength are critical characteristics of GPEs designed for highperformance batteries. Here, an ecologically compatible cellulose-based GPE with a crosslinked structure is synthesized via a facile and effective thiol-ene click chemistry method. The prepared thiol-ene crosslinked GPE possesses enhanced mechanical strength(10.95 MPa) and rigid structure, which enabled us to fabricate Li Fe PO_(4)|Li batteries with ultra-long cycling performance. The capacity retention of the crosslinked cellulose-based GPE can be up to 84% at 0.5 C, even after 350 cycles, which is considerably higher than that of non-crosslinked GPE for which rapid decline in capacity occurs after 200 cycles. In addition, a GPE preparation method described in this work compares favorably well with existing commercial electrolytes for lithium metal batteries.展开更多
In this study,we investigate the effect of the exposure dose on the mechanical property of the photoresins generated with acrylate self-polymerization and thiol-ene polymerization.The results indicate that the mechani...In this study,we investigate the effect of the exposure dose on the mechanical property of the photoresins generated with acrylate self-polymerization and thiol-ene polymerization.The results indicate that the mechanical performance of the thiol-ene photoresin is highly depended on the exposure dose during the solidification process.With 350-fold exposure dose change,the stiffness of the thiol-ene photoresin reached more that 700-fold change compare to 14-fold of the acrylate photoresin.We developed a TPL photoresist based on our results and show the capability to fabricate microstrucutres with high resolution and variable mechanical performances using this method.展开更多
Biobased aromatic-aliphatic polyols were previously synthesized from a thermal thiol-ene reaction of propoxylated cardanol with 2-mercaptoethanol(ME)in the presence of azobisisobutyronitrile(AIBN)as a radical initiato...Biobased aromatic-aliphatic polyols were previously synthesized from a thermal thiol-ene reaction of propoxylated cardanol with 2-mercaptoethanol(ME)in the presence of azobisisobutyronitrile(AIBN)as a radical initiator.Cardanol used for this purpose was obtained as a dark-brown liquid(Gardner Color Reference^18).The photochemical thiol-ene reaction can also be used to prepare aromatic-aliphatic polyols by employing cardanol.Via the photochemical thiol-ene reaction,2-mercaptoethanol was added successfully to C=C double bond of cardanol,suggesting that phenolic group may not play an inhibitory role in the radical thiol-ene reaction.However,we preferred to alkoxylate the phenolic hydroxyl group of cardanol,which is much more reactive with isocyanates than phenolic hydroxyls,to generate a new aliphatic hydroxyl group.Furthermore,the functionality of polyols was also improved by two methods:1)using 1-thio-glycerol instead of 2-mercaptoethanol and 2)using alkoxylated cardanol with glycidol(Cardanol-GLY)instead of propoxylated cardanol(Cardanol-PO).These polyols were then used in preparation of rigid polyurethane foams that can be useful in various applications such as insulation of freezers,pipes and storage tanks in food and chemical industries.展开更多
Cardanol is a natural phenol which is obtained from high vacuum distillation of cashew nut shell liquid.It contains a hydrocarbon chain of 15 carbon atoms in the meta position,either with one,two or three nonconjugate...Cardanol is a natural phenol which is obtained from high vacuum distillation of cashew nut shell liquid.It contains a hydrocarbon chain of 15 carbon atoms in the meta position,either with one,two or three nonconjugated double bonds.This article describes thermal thiol-ene reaction to synthesize new cardanol-based polyols for polyurethanes with aromatic-aliphatic structure.Phenolic hydroxyl group was blocked by alkoxylation and 2-mercaptoethanol was added to the double bonds of propoxylated cardanol.The resultant product is a mixture of polyols that may contain one,two,three or four hydroxyl groups,as a function of the number of double bonds reacted with 2-mercaptoethanol.Similar polyols,but with much higher functionality,were also synthesized from condensation of cardanol-based novolacs with formaldehyde.These cardanolbased polyols were further utilized to prepare rigid polyurethane foams(PUs)with excellent physical and mechanical properties,useful for various applications in chemical and food industries.展开更多
In this work is described the synthesis of a multifunctional thiolated squalene. Thiol-ene coupling reactions were employed to functionalize the six double bonds of squalene, using thiolacetic acid. Hydrolysis of the ...In this work is described the synthesis of a multifunctional thiolated squalene. Thiol-ene coupling reactions were employed to functionalize the six double bonds of squalene, using thiolacetic acid. Hydrolysis of the resulting thioacetates, rendered the corresponding hexathiolated squalene SQ6SH. This compound was further photopolymerized separately with triallyl cyanurate, pentaerythritol triacrylate and diethyleneglycol divinyl ether. Real Time FTIR kinetics revealed that homopolymerization of the ene monomers took place in addition to the thiol-ene photopolymerization. Flexible films were obtained when SQ6SH was photopolymerized in bulk with the above mentioned unsaturated monomers.展开更多
Aromatic-aliphatic polyols were obtained previously from the thiol-ene reactions of propoxylated cardanol with hydroxyalkyl mercaptans;these aromatic-aliphatic polyols were then utilized in the preparation of rigid po...Aromatic-aliphatic polyols were obtained previously from the thiol-ene reactions of propoxylated cardanol with hydroxyalkyl mercaptans;these aromatic-aliphatic polyols were then utilized in the preparation of rigid polyurethane foams with excellent properties.The current work describes a variant of cardanol polyol synthesis by thiol-ene reactions in three steps.The first step is propoxylation of cardanol by reacting cardanol with propylene oxide;the second step is mercaptanization of propoxylated cardanol by reacting double bonds with hydrogen sulfide;and the third step involves the addition of the thiol groups of mercaptanized propoxylated cardanol to the double bonds of allyl alcohol,glycerol-1-allyl ether,and trimethylolpropane allyl ether.Thus,obtained polyols were characterized by standard analytical methods.Rigid polyurethane foams prepared from these polyols show promising physical-mechanical properties.The rigid polyurethane foams can be used for various applications such as thermo-insulation of freezers,storage tanks and pipes for food and chemical industries,wood substitutes and flotation materials.展开更多
We synthesized tetrafunctional allyl ether monomer (4-AE) and investigated the effects of the different molar ratios of trimethylolpropane tris-(3-mercaptopropionate) (3-SH) to 4-AE on the photopolymerization behavior...We synthesized tetrafunctional allyl ether monomer (4-AE) and investigated the effects of the different molar ratios of trimethylolpropane tris-(3-mercaptopropionate) (3-SH) to 4-AE on the photopolymerization behavior, morphology, and electro-optical properties of thiol-ene-based PDLC films. Photo-DSC and DSC analyses revealed that the PDLC sample containing 45 wt% 3-SH and 45 wt% 4-AE gave the highest exotherm, the fastest photocure rate, and the highest Tg due to the matched stoichiometry. Morphological observations and electro-optical measurements showed that the PDLC sample with the matched molar ratio gave the smallest LC droplet size, the highest threshold, driving voltages, and lowest saturation transmittance because the orientation of LC molecules got difficulty in small droplets. The stoichiometric ratios of 3-SH to 4-AE played an important role in controlling the photocure rate, phase separation rate, microstructures of LC droplets, and electro-optical properties of thiol-ene-based PDLC systems.展开更多
Leveraging the modularity and efficiency of click chemistry,a series of chiral diamine-triazole tetradentate nitrogen donor ligands and their corresponding nonheme iron complexes were synthesized.These iron-based cata...Leveraging the modularity and efficiency of click chemistry,a series of chiral diamine-triazole tetradentate nitrogen donor ligands and their corresponding nonheme iron complexes were synthesized.These iron-based catalysts demonstrated excellent catalytic activity and enantioselectivity in the asymmetric epoxidation of electron-deficient olefins using H_(2)O_(2) as the terminal oxidant.展开更多
Thiol-ene click polymerization has become an effective synthetic tool for constructing diverse sulfurcontaining polymers with advanced functions.However,the polymerization of internal alkene and thiol has been rarely ...Thiol-ene click polymerization has become an effective synthetic tool for constructing diverse sulfurcontaining polymers with advanced functions.However,the polymerization of internal alkene and thiol has been rarely used to prepare functional polymers because of large steric hindrance and relatively weak reactivity.In this work,a base-catalyzed click polymerization of thiols and internal olefins was successfully established in air.Notably,the polymerization went smoothly in halogen-containing solvent even without any catalyst via a radical step-growth polymerization.The polymerization enjoys excellent monomer applicability,which affords 16 well-defined polythioethers in high yields(up to 99%)with high molecular weights(Mwup to 19,600),good thermal stability(Td,5%up to 326℃),broadly regulated glass transition temperatures(-24~95℃),and unconventional fluorescence.Via a simple solvent regulation strategy,the vanillin-derived polythioether could be used as a turn-off fluorescence probe for Fe3+ions in DMF/H2O and a turn-on probe for Ag+ions in THF,with low detection limits of 9.15×10^(-7)mol/L and 4.60×10^(-7)mol/L,respectively.Additionally,the detection of Ag+presented a transformation from a clear solution to an emulsion,expanding the application prospects through observing colorimetric and fluorescent dual signals.Thus,this work not only holds significance in establishing an efficient polymerization,but also provides a strategy to prepare sensitive fluorescent probes for multiple metal ions.展开更多
Adsorptive separation holds important prospect for the challenging recovery of C_(2)H_(6) and C_(3)H_(8) from natural gas and the separation efficiency is primarily determined by a high-performance adsorbent.In this w...Adsorptive separation holds important prospect for the challenging recovery of C_(2)H_(6) and C_(3)H_(8) from natural gas and the separation efficiency is primarily determined by a high-performance adsorbent.In this work,we reported the synthesis of a novel porous organic polymer,FOSU-POP-1 for the separation of CH_(4)/C_(2)H_(6)/C_(3)H_(8).The FOSU-POP-1 was synthesized from tetrakis(4-azidophenyl)methane and 1,3,5-triethynylbenzene via click reaction with a Brunauer-Emmett-Teller(BET)surface area of 1038 m^(2)·g^(-1).Exhibiting stronger affinity towards C_(3)H_(8) and C_(2)H_(6) than CH_(4),2.85 mmol·g^(-1) for C_(3)H_(8) and 2.14 mmol·g^(-1) for C_(2)H_(6) were achieved on the FOSU-POP-1 at 0.1 MPa,298 K,with an ideal adsorbed solution theory selectivity of 227 for C_(3)H_(8)/CH_(4).The breakthrough experiment confirmed the good dynamic separation performance and recyclability of FOSU-POP-1 for CH_(4)/C_(2)H_(6)/C_(3)H_(8) ternary mixture.The density functional theory calculation further revealed that the N atom in triazole ring interacted strongly with the C_(3)H_(8) and C_(2)H_(6).This work highlighted the promising capability of FOSU-POP-1 for efficiently separating CH_(4)/C_(2)H_(6)/C_(3)H_(8) mixture.展开更多
Micellar nanostructures formed by amphiphilic polymers are prone to dissociation when the in vivo environment changes.Polyprodrug micelles can cross-link with other hydrophobic drugs through noncovalent bonds,which ha...Micellar nanostructures formed by amphiphilic polymers are prone to dissociation when the in vivo environment changes.Polyprodrug micelles can cross-link with other hydrophobic drugs through noncovalent bonds,which has the advantage of fixed structure and avoids the use of chemical cross-linking agents.In this study,we prepared a polyprodrug with hydrophobic curcumin(CUR)and hydrophilic poly(ethylene glycol)(PEG)in the main chain through a click reaction between CUR derivatives containing azide groups and di-alkynly-capped PEG.Due to the presence of benzene rings in the structure of CUR,the polyprodrug can form non-covalent cross-linked nanoparticles(NCCL-CUR NPs)through hydrophobic andπ-πstacking interaction.The structure,molecular weight,and self-assembly properties of the polyprodrug were characterized.The anti-cancer drug camptothecin(CPT)was encapsulated in the polyprodrug nanoparticles,producing dual-drug-loaded nanoparticles(abbreviated as CPT@NCCL-CUR NPs).The test results indicate that the NPs have reductive responsiveness and can release the original drugs CUR and CPT in phosphate buffer(PB)solution containing glutathione(GSH),while remaining stability in physiological environment.Cell and in vivo experiments further demonstrate that the dualdrug-loaded CPT@NCCL-CUR NPs can inhibit the growth of tumor through synergistic effects.This work provides a valuable approach for the preparation of amphiphilic polyprodrug with anti-tumor CUR as the backbone,and the stable dual-drug-loaded NPs containing both CUR and CPT through non-covalent cross-linking for synergistic therapy.展开更多
为了充分利用特征间的高阶交互以提升点击率预测模型的预测精度,提出了一种基于图神经网络和注意力的点击率预测模型VBGA (vector-wise and bit-wise interaction model based on GNN and attention),该模型借助图神经网络和注意力机制...为了充分利用特征间的高阶交互以提升点击率预测模型的预测精度,提出了一种基于图神经网络和注意力的点击率预测模型VBGA (vector-wise and bit-wise interaction model based on GNN and attention),该模型借助图神经网络和注意力机制,为每个特征分别学习一个细粒度的权重,并将这种细粒度的特征权重输入到向量级交互层和元素级交互层联合预测点击率.VBGA模型主要由向量级交互层和元素级交互层构成,其中向量级交互层采用有向图来构建向量级的特征交互,实现无重复的显式特征交互,在减少计算量的同时,还可以实现更高阶的特征交叉,以获得更准确的预测精度.此外,本文还提出了一种交叉网络用于构建元素级特征交互.在Criteo和Avazu数据集上,与其他几种最先进的点击率预测模型进行了比较,实验结果表明,VBGA可以获得良好的预测结果.展开更多
基金the project PNRR-NGEU,which has received funding from the MUR-DM 352/2022.
文摘Gel polymer electrolytes(GPEs)present the best compromise between mechanical and electrochemical properties,as well as an improvement of the cell safety in the framework of Li metal batteries production.However,the polymerization mechanism typically employed relies on the presence of an initiator,and is hindered by oxygen,thus impeding the industrial scale-up of the GPEs production.In this work,an UV-mediated thiol-ene polymerization,employing polyethylene glycol diacrylate(PEGDA)as oligomer,was carried out in a liquid electrolyte solution(1M LiTFSI in EC/DEC)to obtain a self-standing GPE.A comparative study between two different thiol-containing crosslinkers(trimethylolpropane tris(3-mercaptopropionate)-T3 and pentaerythritol tetrakis(3-mercaptopropionate)-T4)was carried out,studying the effects of the crosslinking environment and the GPE production methods on the cell performances.All the produced GPEs present an excellent room temperature ionic conductivity above 1 mS cm^(-1),as well as a wide electrochemical stability window up to 4.59 V.When cycled at a current density of C/10 for more than 250 cycles,all of the tested cells showed a stable cycling profile and a specific capacity>100 mAh g^(-1),indicating the suitability of such processes for up-scaling.
基金financially supported by the National Natural Science Foundation of China(Nos.51373168,51390484,51233004 and 51321062)
文摘In this study, a novel approach by combining base-catalyzed epoxide ring-opening and thiol-ene click chemistry is presented for the side-chain modification of dextran. The vinyl-modified dextran is prepared by a basic epoxide ring opening reaction of allyl glycidyl ether in 0.1 mol/L NaOH, followed by thiol-addition click reaction of three model sulfhydryl compounds using water-soluble Irgacure 2959 as the photoinitiator, leading to side-chain functionalized dextran modified with carboxyl, bidentate dicarboxyl or amino groups. This is the first example of combining epoxide ring-opening and thiol- ene click chemistry for side-chain modification of dextran in aqueous media. Importantly, it may also be extended as a convenient and efficient method for the side-chain modification of other polysaccharides.
基金National Natural Science Foundation of China (No.31771039)Scientific Research Fund of National Innovation Center of Advanced Dyeing and Finishing Technology,China (No.ZJ2021B03)。
文摘To improve shrink-proofing performance and hydrophilicity of wool fabrics, the wool fibers were modified by poly(ethylene glycol) dimethacrylate(PEGDMA) through thiol-ene click chemistry reaction. Firstly, wool fabrics were reduced at room temperature with a high-efficiency disulfide bond reducing agent, tris(2-carbonxyethyl) phosphine hydrochloride(TCEP). Then the thiol-ene click chemistry reaction was initiated by dimethyl 2, 2’-azobis(2-methylpropionate)(AIBME) through the heating method. Fourier transform infrared(FTIR) spectroscopy, Raman spectroscopy, and scanning electron microscopy test results all showed that PEGDMA was successfully grafted onto wool fabric surface. Physical properties, hydrophilicity, and shrink-proofing performance were assessed. The wetting time of PEGDMA grafted wool fabrics decreased to about 3 s. After being grafted with PEGDMA, the felting shrinkage of wool fabrics rapidly decreased to about 8%. The anti-pilling properties of wool fabrics were also greatly improved to 5 class after 2 000 times of friction. Meanwhile, the load retention rate of fabrics could reach 90%. It provides a method of wool modification to improve hydrophilicity and anti-felting performance.
基金supported by the National Natural Science Foundation of China(Nos.21072072 and 21102051)PCSIRT(No.IRTO953)+1 种基金Program for New Century Excellent Talent in University(No.NCET-10-0428)Self-determined Research Funds of CCNU from the Colleges Basic Research and Operation of MOE (Nos.CCNU11C01002,CCNU12A01004 and CCNU12A02012)
文摘Several water-soluble calix[4]arenes were synthesized via radical addition reaction between thiols and alkenes under UV lamp irradiation(λ= 365 nm) in good yields.The structures of these compounds synthesized herein were fully confirmed by 1 H NMR.ES1-MS and elemental analysis.
基金supported by the National Natural Science Foundation of China(52172096)the Classification Development of the Capital Normal University(009-2155091)。
文摘Hypoxia in the tumor microenvironment(TME)greatly limits the tumor-killing therapeutic efficacy of sonodynamic therapy(SDT);this phenomenon is further exacerbated by increased glutathione(GSH)levels in cancer cells.Simultaneously,cancer starvation therapy is increasingly recognized nowadays as a promising clinical translation,but the efficacy of glucose oxidase(GOx)-based starvation therapy is also limited by the lack of oxygen in the tumor.Glyceraldehyde-3-phosphate dehydrogenase(GAPDH)is a key glycolytic enzyme and can therefore be a target for starvation therapy in the absence of oxygen engagement.Here,we proposed thiol-ene click reactions based on a two-dimensional metal-organic framework(MOF)modification for tumor treatments to enable the combination of SDT and starvation therapy.Experimental studies demonstrated that the prepared material could consume GSH and GAPDH free from oxygen in TME,which benefited from the thiol-ene click reactions between the MOFs and thiol substances in cancer cells.Further experiments in vitro and in vivo indicated the prepared MOF materials could kill cancer cells efficiently.This study is expected to create a promising avenue for thiol-ene click reactions in SDT and starvation therapy for cancer.
基金financially supported by the National Natural Science Foundation of China(No.22171182)Sichuan Tianfu Emei Plan.
文摘Control crosslink network and chain connectivity are essential to develop shape memory polymers(SMPs)with high shape memory capabilities,adjustable response temperature,and satisfying mechanistical properties.In this study,novel poly(ε-caprolactone)(PCL)-poly(2-vinyl)ethylene glycol(PVEG)copolymers bearing multi-pendant vinyl groups is synthesized by branched-selective allylic etherification polymerization of vinylethylene carbonate(VEC)with linear and tetra-arm PCLs under a synergistic catalysis of palladium complex and boron reagent.Facile thiol-ene photo-click reaction of PCL-PVEG copolymers with multifunctional thiols can rapidly access a serious crosslinked SMPs with high shape memory performance.The thermal properties,mechanical properties and response temperature of the obtained SMPs are tunable by the variation of PCL prepolymers,vinyl contents and functionality of thiols.Moreover,high elastic modulus in the rubbery plateau region can be maintained effectively owing to high-density topological networks of the PCL materials.In addition,the utility of the present SMPs is further demonstrated by the post-functionalization via thiol-ene photo-click chemistry.
基金financial support from the National Key R&D Program of China (No.2021YFA1302604)Scientific and technological innovation project of China Academy of Chinese Medical Sciences (No.CI2021B017)China Postdoctoral Science Foundation (No.2023T160727)。
文摘RNA binding proteins(RBPs) are a crucial class of proteins that interact with RNA and play a key role in various biological process.Deficiencies or abnormalities of RBPs are closely linked to the occurrence and progression of numerous diseases,making RBPs potential therapeutic targets.However,the limited tissue penetration of 254 nm UV irradiation makes it difficult to efficiently crosslink weak and dynamic RNA-protein interactions in mammal tissues.Additionally,RNA degradation in metal catalyzed click reaction further hinders the enrichment of RNA-protein complexes(RPCs).Due to these inherent limitations,globally profiling the RNA binding proteome in mammal organs has long been a challenge.Herein,we proposed a novel method,which utilized a dual crosslinking with formaldehyde and 254 nm UV irradiation,metabolic labeling and metal-free thiol-yne click reaction to enable large-scale enrichment and identification of RBPs in mouse liver,called FTYc_UV.In this method,formaldehyde is first used to crosslink the crude RNA-protein complexes(cRPCs) in situ to address the problem of poor tissue penetration of 254 nm UV irradiation.Furthermore,this method integrates metabolic labeling with a metal-free thiol-yne click reaction to achieve non-destructive RNA tagging.After specifically RNA-RBPs crosslinking by 254 nm UV irradiation in tissue lysates,formaldehyde decrosslinking is employed to remove non-specific proteins,leading to effective enrichment of RPCs from mouse liver and thereby overcoming the poor specificity of formaldehyde crosslinking.Application of FTYc_UV in mouse liver successfully identified over 1600 RBPs covering approximately 75 % of previously reported RBPs.Furthermore,420 candidate RBPs,including 151metabolic enzymes,were also obtained,demonstrating the sensitivity of FTYc_UV and the potential of this method for in-depth exploration of RNA-protein interactions in biological and clinical research.
基金financially supported by the Fundamental Research Funds for Central Universities(No.24D110627)。
文摘The preparation and functionalization of polymeric capsules attract intense attention due to their application in various areas.Herein we presented an amphiphilic alternating copolymer(ACP)-based microcapsule which is both robust and readily-functionalized through interfacial click polymerization.A water-in-oil emulsion was constructed to act as the reaction medium,the hydrophilic 1,3-butadiene diepoxide(BDE)in water phase reacted with the oleophilic 1,4-dibutanedithiol(BDT)in oil phase at the water-oil interface to form the amphiphilic ACP named poly(2,3-dihydroxy butylene-alt-butylene dithioether)(abbreviated as P(DHB-a-BDT)below),which would deposite in situ to form the micro-sized capsules.Significantly,the dried capsules are robust enough to be rehydrated once the water was added and almost restored their original morphologies.Further elucidation showed that the Young's modulus of these capsules exceeded 1 GPa.As long as we know,it is the first time for the mechanical properties of the ACP-based microstructures being investigated.Besides,functionalization could be achieved simultaneously with the formation process.As a proof of concept,positive-charged capsules were successfully obtained through click copolymerization.Stemming from the unique characteristics of amphiphilic ACPs which combined both merits of click chemistry and interfacial reactions,all these features of the current method as well as the resultant capsules may promote the application of the polymeric capsules.
基金financially supported by National Natural Science Foundation of China (Nos. 21965012, 52003068, 52062012)Research Project of Hainan Province (Nos. ZDYF2021SHFZ263,2019RC038 and ZDYF2020028)+1 种基金Guangdong Province Key Discipline Construction Project (No. 2021ZDJS102)the Innovation Team of Universities of Guangdong Province (No. 2022KCXTD030)。
文摘Gel polymer electrolytes(GPEs) are considered to be one most promising alternative to liquid electrolytes due to their suitability for creating safe and durable solid-state lithium-metal batteries. However, the mechanical properties of GPEs usually deteriorate dramatically when polymer matrices are plasticized by a liquid electrolyte, which leads to significant loss of battery performance. Therefore, the long-term structural integrity and good mechanical strength are critical characteristics of GPEs designed for highperformance batteries. Here, an ecologically compatible cellulose-based GPE with a crosslinked structure is synthesized via a facile and effective thiol-ene click chemistry method. The prepared thiol-ene crosslinked GPE possesses enhanced mechanical strength(10.95 MPa) and rigid structure, which enabled us to fabricate Li Fe PO_(4)|Li batteries with ultra-long cycling performance. The capacity retention of the crosslinked cellulose-based GPE can be up to 84% at 0.5 C, even after 350 cycles, which is considerably higher than that of non-crosslinked GPE for which rapid decline in capacity occurs after 200 cycles. In addition, a GPE preparation method described in this work compares favorably well with existing commercial electrolytes for lithium metal batteries.
基金the National Natural Science Foundation of China(Nos.22002015 and 52033002)the Fundamental Research Funding from Jiangsu Province(No.BK20211560)the Fundamental Research Funds for the Central Universities(No.2242018R20011).
文摘In this study,we investigate the effect of the exposure dose on the mechanical property of the photoresins generated with acrylate self-polymerization and thiol-ene polymerization.The results indicate that the mechanical performance of the thiol-ene photoresin is highly depended on the exposure dose during the solidification process.With 350-fold exposure dose change,the stiffness of the thiol-ene photoresin reached more that 700-fold change compare to 14-fold of the acrylate photoresin.We developed a TPL photoresist based on our results and show the capability to fabricate microstrucutres with high resolution and variable mechanical performances using this method.
文摘Biobased aromatic-aliphatic polyols were previously synthesized from a thermal thiol-ene reaction of propoxylated cardanol with 2-mercaptoethanol(ME)in the presence of azobisisobutyronitrile(AIBN)as a radical initiator.Cardanol used for this purpose was obtained as a dark-brown liquid(Gardner Color Reference^18).The photochemical thiol-ene reaction can also be used to prepare aromatic-aliphatic polyols by employing cardanol.Via the photochemical thiol-ene reaction,2-mercaptoethanol was added successfully to C=C double bond of cardanol,suggesting that phenolic group may not play an inhibitory role in the radical thiol-ene reaction.However,we preferred to alkoxylate the phenolic hydroxyl group of cardanol,which is much more reactive with isocyanates than phenolic hydroxyls,to generate a new aliphatic hydroxyl group.Furthermore,the functionality of polyols was also improved by two methods:1)using 1-thio-glycerol instead of 2-mercaptoethanol and 2)using alkoxylated cardanol with glycidol(Cardanol-GLY)instead of propoxylated cardanol(Cardanol-PO).These polyols were then used in preparation of rigid polyurethane foams that can be useful in various applications such as insulation of freezers,pipes and storage tanks in food and chemical industries.
文摘Cardanol is a natural phenol which is obtained from high vacuum distillation of cashew nut shell liquid.It contains a hydrocarbon chain of 15 carbon atoms in the meta position,either with one,two or three nonconjugated double bonds.This article describes thermal thiol-ene reaction to synthesize new cardanol-based polyols for polyurethanes with aromatic-aliphatic structure.Phenolic hydroxyl group was blocked by alkoxylation and 2-mercaptoethanol was added to the double bonds of propoxylated cardanol.The resultant product is a mixture of polyols that may contain one,two,three or four hydroxyl groups,as a function of the number of double bonds reacted with 2-mercaptoethanol.Similar polyols,but with much higher functionality,were also synthesized from condensation of cardanol-based novolacs with formaldehyde.These cardanolbased polyols were further utilized to prepare rigid polyurethane foams(PUs)with excellent physical and mechanical properties,useful for various applications in chemical and food industries.
文摘In this work is described the synthesis of a multifunctional thiolated squalene. Thiol-ene coupling reactions were employed to functionalize the six double bonds of squalene, using thiolacetic acid. Hydrolysis of the resulting thioacetates, rendered the corresponding hexathiolated squalene SQ6SH. This compound was further photopolymerized separately with triallyl cyanurate, pentaerythritol triacrylate and diethyleneglycol divinyl ether. Real Time FTIR kinetics revealed that homopolymerization of the ene monomers took place in addition to the thiol-ene photopolymerization. Flexible films were obtained when SQ6SH was photopolymerized in bulk with the above mentioned unsaturated monomers.
文摘Aromatic-aliphatic polyols were obtained previously from the thiol-ene reactions of propoxylated cardanol with hydroxyalkyl mercaptans;these aromatic-aliphatic polyols were then utilized in the preparation of rigid polyurethane foams with excellent properties.The current work describes a variant of cardanol polyol synthesis by thiol-ene reactions in three steps.The first step is propoxylation of cardanol by reacting cardanol with propylene oxide;the second step is mercaptanization of propoxylated cardanol by reacting double bonds with hydrogen sulfide;and the third step involves the addition of the thiol groups of mercaptanized propoxylated cardanol to the double bonds of allyl alcohol,glycerol-1-allyl ether,and trimethylolpropane allyl ether.Thus,obtained polyols were characterized by standard analytical methods.Rigid polyurethane foams prepared from these polyols show promising physical-mechanical properties.The rigid polyurethane foams can be used for various applications such as thermo-insulation of freezers,storage tanks and pipes for food and chemical industries,wood substitutes and flotation materials.
文摘We synthesized tetrafunctional allyl ether monomer (4-AE) and investigated the effects of the different molar ratios of trimethylolpropane tris-(3-mercaptopropionate) (3-SH) to 4-AE on the photopolymerization behavior, morphology, and electro-optical properties of thiol-ene-based PDLC films. Photo-DSC and DSC analyses revealed that the PDLC sample containing 45 wt% 3-SH and 45 wt% 4-AE gave the highest exotherm, the fastest photocure rate, and the highest Tg due to the matched stoichiometry. Morphological observations and electro-optical measurements showed that the PDLC sample with the matched molar ratio gave the smallest LC droplet size, the highest threshold, driving voltages, and lowest saturation transmittance because the orientation of LC molecules got difficulty in small droplets. The stoichiometric ratios of 3-SH to 4-AE played an important role in controlling the photocure rate, phase separation rate, microstructures of LC droplets, and electro-optical properties of thiol-ene-based PDLC systems.
文摘Leveraging the modularity and efficiency of click chemistry,a series of chiral diamine-triazole tetradentate nitrogen donor ligands and their corresponding nonheme iron complexes were synthesized.These iron-based catalysts demonstrated excellent catalytic activity and enantioselectivity in the asymmetric epoxidation of electron-deficient olefins using H_(2)O_(2) as the terminal oxidant.
基金financially supported by the National Natural Science Foundation of China(Nos.22479102,22001078)the Guangdong Talent Program(No.2023TQ07L822)+1 种基金the Guangdong Basic and Applied Basic Research Foundation(No.2024A1515011716)the startup funding of Songshan Lake Materials Laboratory(No.Y1D1031H311)。
文摘Thiol-ene click polymerization has become an effective synthetic tool for constructing diverse sulfurcontaining polymers with advanced functions.However,the polymerization of internal alkene and thiol has been rarely used to prepare functional polymers because of large steric hindrance and relatively weak reactivity.In this work,a base-catalyzed click polymerization of thiols and internal olefins was successfully established in air.Notably,the polymerization went smoothly in halogen-containing solvent even without any catalyst via a radical step-growth polymerization.The polymerization enjoys excellent monomer applicability,which affords 16 well-defined polythioethers in high yields(up to 99%)with high molecular weights(Mwup to 19,600),good thermal stability(Td,5%up to 326℃),broadly regulated glass transition temperatures(-24~95℃),and unconventional fluorescence.Via a simple solvent regulation strategy,the vanillin-derived polythioether could be used as a turn-off fluorescence probe for Fe3+ions in DMF/H2O and a turn-on probe for Ag+ions in THF,with low detection limits of 9.15×10^(-7)mol/L and 4.60×10^(-7)mol/L,respectively.Additionally,the detection of Ag+presented a transformation from a clear solution to an emulsion,expanding the application prospects through observing colorimetric and fluorescent dual signals.Thus,this work not only holds significance in establishing an efficient polymerization,but also provides a strategy to prepare sensitive fluorescent probes for multiple metal ions.
基金financially supported by the National Natural Science Foundation of China(22208050,22108034)Guangdong Provincial Natural Science Foundation Project(2023A1515012151)Scientific Research Project of Guangdong Provincial Department of Education(2023KTSCX132).
文摘Adsorptive separation holds important prospect for the challenging recovery of C_(2)H_(6) and C_(3)H_(8) from natural gas and the separation efficiency is primarily determined by a high-performance adsorbent.In this work,we reported the synthesis of a novel porous organic polymer,FOSU-POP-1 for the separation of CH_(4)/C_(2)H_(6)/C_(3)H_(8).The FOSU-POP-1 was synthesized from tetrakis(4-azidophenyl)methane and 1,3,5-triethynylbenzene via click reaction with a Brunauer-Emmett-Teller(BET)surface area of 1038 m^(2)·g^(-1).Exhibiting stronger affinity towards C_(3)H_(8) and C_(2)H_(6) than CH_(4),2.85 mmol·g^(-1) for C_(3)H_(8) and 2.14 mmol·g^(-1) for C_(2)H_(6) were achieved on the FOSU-POP-1 at 0.1 MPa,298 K,with an ideal adsorbed solution theory selectivity of 227 for C_(3)H_(8)/CH_(4).The breakthrough experiment confirmed the good dynamic separation performance and recyclability of FOSU-POP-1 for CH_(4)/C_(2)H_(6)/C_(3)H_(8) ternary mixture.The density functional theory calculation further revealed that the N atom in triazole ring interacted strongly with the C_(3)H_(8) and C_(2)H_(6).This work highlighted the promising capability of FOSU-POP-1 for efficiently separating CH_(4)/C_(2)H_(6)/C_(3)H_(8) mixture.
基金supported by the National Natural Science Foundation of China(No.21975169)the Project Fund of the Priority Academic Program Development(PAPD)of Jiangsu Higher Education Institutions+2 种基金the Key Laboratory of Polymeric Materials Design and Synthesis for Biomedical Function of Soochow Universitythe Research project of China Baoyuan Investment Co.,Ltd.Suzhou Science and Technology Plan Project(No.SKY2023051)。
文摘Micellar nanostructures formed by amphiphilic polymers are prone to dissociation when the in vivo environment changes.Polyprodrug micelles can cross-link with other hydrophobic drugs through noncovalent bonds,which has the advantage of fixed structure and avoids the use of chemical cross-linking agents.In this study,we prepared a polyprodrug with hydrophobic curcumin(CUR)and hydrophilic poly(ethylene glycol)(PEG)in the main chain through a click reaction between CUR derivatives containing azide groups and di-alkynly-capped PEG.Due to the presence of benzene rings in the structure of CUR,the polyprodrug can form non-covalent cross-linked nanoparticles(NCCL-CUR NPs)through hydrophobic andπ-πstacking interaction.The structure,molecular weight,and self-assembly properties of the polyprodrug were characterized.The anti-cancer drug camptothecin(CPT)was encapsulated in the polyprodrug nanoparticles,producing dual-drug-loaded nanoparticles(abbreviated as CPT@NCCL-CUR NPs).The test results indicate that the NPs have reductive responsiveness and can release the original drugs CUR and CPT in phosphate buffer(PB)solution containing glutathione(GSH),while remaining stability in physiological environment.Cell and in vivo experiments further demonstrate that the dualdrug-loaded CPT@NCCL-CUR NPs can inhibit the growth of tumor through synergistic effects.This work provides a valuable approach for the preparation of amphiphilic polyprodrug with anti-tumor CUR as the backbone,and the stable dual-drug-loaded NPs containing both CUR and CPT through non-covalent cross-linking for synergistic therapy.
文摘为了充分利用特征间的高阶交互以提升点击率预测模型的预测精度,提出了一种基于图神经网络和注意力的点击率预测模型VBGA (vector-wise and bit-wise interaction model based on GNN and attention),该模型借助图神经网络和注意力机制,为每个特征分别学习一个细粒度的权重,并将这种细粒度的特征权重输入到向量级交互层和元素级交互层联合预测点击率.VBGA模型主要由向量级交互层和元素级交互层构成,其中向量级交互层采用有向图来构建向量级的特征交互,实现无重复的显式特征交互,在减少计算量的同时,还可以实现更高阶的特征交叉,以获得更准确的预测精度.此外,本文还提出了一种交叉网络用于构建元素级特征交互.在Criteo和Avazu数据集上,与其他几种最先进的点击率预测模型进行了比较,实验结果表明,VBGA可以获得良好的预测结果.
