A visible-light induced metal-free approach was described for the hydroxyalkylation of 2 Hbenzothiazoles with alcohols by using selectfluor as the oxidant.A variety of 2 H-benzothiazoles and alcohols could be tolerate...A visible-light induced metal-free approach was described for the hydroxyalkylation of 2 Hbenzothiazoles with alcohols by using selectfluor as the oxidant.A variety of 2 H-benzothiazoles and alcohols could be tolerated,providing a mild and simple method for the synthesis of C2-hydroxyalkylated2 H-benzothiazoles in moderate to good yields.Besides,ethers were also compatible in this reaction,leading to corresponding C2 ether-substituted 2 H-benzothiazoles with high regioselectivity.展开更多
An efficient regioselective Friedel-Crafts hydroxyalkylation of N-substituted glyoxylamide with various indoles catalyzed by Lewis acids was developed. The reactions proceeded smoothly at room temperature and the 2-hy...An efficient regioselective Friedel-Crafts hydroxyalkylation of N-substituted glyoxylamide with various indoles catalyzed by Lewis acids was developed. The reactions proceeded smoothly at room temperature and the 2-hydroxy-2-(1H-indol-3-yl)-N-substituted acetamide resulted from the reactions catalyzed by FeSO4 were synthesized in excellent yields (up to 93%). While the bisindole compounds were obtained when FeCl3 was used as a catalyst in excellent yields (up to 92%). A possible mechanism was proposed.展开更多
The research on the properties of graphene oxide(GO) in various media has become one of the hottest topics since GO is now the main raw material for graphene-based advanced materials. In this work, the g-ray radiati...The research on the properties of graphene oxide(GO) in various media has become one of the hottest topics since GO is now the main raw material for graphene-based advanced materials. In this work, the g-ray radiation chemistry effect of GO nanosheets and their self-aggregation behavior in t-butanol/water medium were investigated. The results show that GO nanosheets are reduced and hydroxyalkylated simultaneously by the alcohol free radicals produced by the radiolysis of t-butanol/water solution under g-ray radiation. The radiation-modified GO nanosheets will self-assemble into a self-standing graphene hydrogel when the p H of the solution is lower than 2. A hydroxyl-functionalized free-standing graphene aerogel is further obtained simply by freeze-drying. This work provides not only a general self-assembly mechanism of GO nanosheets in strong acidic alcohol/water media under high energy radiation, but also a facile and economical preparation method for hydroxyalkylated graphene-based aerogel.展开更多
Perovskite solar cells(PSCs)have been demonstrated to be one of the most promising technologies in the field of renewable energy.However,the presence of the defects in the perovskite films greatly limits the efficienc...Perovskite solar cells(PSCs)have been demonstrated to be one of the most promising technologies in the field of renewable energy.However,the presence of the defects in the perovskite films greatly limits the efficiency and the stability of the PSCs.The additive engineering is one of the most effective approaches to overcome this problem.Most of the successful additives are extracted from the petroleum-based materials,while the research on the biomass-based additives is still lagging behind.In this paper,two ecofriendly hydroxyalkyl cellulose additives,i.e.,hydroxyethyl cellulose(HEC)and hydroxylpropyl cellulose(HPC),are investigated on the performance of the MAPbl_(3)-based inverted PSCs.Due to the strong interaction between the hydroxyl groups of the cellulose and the divalent cations of the perovskite,these additives enhance the crystal grain orientation and significantly repair the defects of the perovskite films.Working as the additives,these two cellulose derivatives show a strong passivation ability,which significantly reduces the trap density and improves the optoelectronic feature of the PSCs.Compared with the average power conversion efficiency(PCE)of the control device(19.19%),an enhancement of~10%is achieved after the addition of HEC.The optimized device(PCE=21.25%)with a long-term stability(10:80 h,PCE=20.93%)is achieved by the incorporation of the HEC additives into the precursor solution.It is the best performance among the PSCs with the cellulose additives up to now.This research provides a novel choice to develop a cost-effective and renewable additive for the PSCs with high efficiency and excellent long-term stability.展开更多
There has been now a lot of work done on the 1,3-dithianes chemistry. As a synthetic reagent, 1,3-dithiane has been widely applied to organic syntheses. But no report has been found in literature on the synthesis of d...There has been now a lot of work done on the 1,3-dithianes chemistry. As a synthetic reagent, 1,3-dithiane has been widely applied to organic syntheses. But no report has been found in literature on the synthesis of derivatives of ferrocene by this versatile method, except that by Reuter et al. In our work a series of new ferrocenyl derivatives, 2-ferrocenyl-2-(1-hydroxyalkyl)-1, 3-dithianes have been synthesized through the following synthetic route:展开更多
基金the financial support by the National Natural Science Foundation of China(No.30900959)the Natural Science Foundation of Zhejiang Province(No.LY17C140003)。
文摘A visible-light induced metal-free approach was described for the hydroxyalkylation of 2 Hbenzothiazoles with alcohols by using selectfluor as the oxidant.A variety of 2 H-benzothiazoles and alcohols could be tolerated,providing a mild and simple method for the synthesis of C2-hydroxyalkylated2 H-benzothiazoles in moderate to good yields.Besides,ethers were also compatible in this reaction,leading to corresponding C2 ether-substituted 2 H-benzothiazoles with high regioselectivity.
基金the National Natural Science Foundation of China (Nos. 21472130, 81373259) for financial support of this study
文摘An efficient regioselective Friedel-Crafts hydroxyalkylation of N-substituted glyoxylamide with various indoles catalyzed by Lewis acids was developed. The reactions proceeded smoothly at room temperature and the 2-hydroxy-2-(1H-indol-3-yl)-N-substituted acetamide resulted from the reactions catalyzed by FeSO4 were synthesized in excellent yields (up to 93%). While the bisindole compounds were obtained when FeCl3 was used as a catalyst in excellent yields (up to 92%). A possible mechanism was proposed.
基金Supported by the National Science Fund for Distinguished Young Investigators the NNSF ofChina (20272048+2 种基金 203900505) the Ministry of Education (Key Project 104201) and the Specialized Research Fundfor the Doctoral Program of Higher Education (20020384004)
基金supported by the National Natural Science Foundation of China (Nos. 51573175, 51473152, 51773189)Foshan Scientific and Technological Innovation Team Project (No. 2013IT100041)+1 种基金Foshan University-City Cooperation Project (Scientific and Technological Innovation Project, No. 2014HK100291)the Fundamental Research Funds for the Central Universities (Nos. WK2060200012, WK3450000001)
文摘The research on the properties of graphene oxide(GO) in various media has become one of the hottest topics since GO is now the main raw material for graphene-based advanced materials. In this work, the g-ray radiation chemistry effect of GO nanosheets and their self-aggregation behavior in t-butanol/water medium were investigated. The results show that GO nanosheets are reduced and hydroxyalkylated simultaneously by the alcohol free radicals produced by the radiolysis of t-butanol/water solution under g-ray radiation. The radiation-modified GO nanosheets will self-assemble into a self-standing graphene hydrogel when the p H of the solution is lower than 2. A hydroxyl-functionalized free-standing graphene aerogel is further obtained simply by freeze-drying. This work provides not only a general self-assembly mechanism of GO nanosheets in strong acidic alcohol/water media under high energy radiation, but also a facile and economical preparation method for hydroxyalkylated graphene-based aerogel.
基金the National Natural Science Foundation of China(61935017,62175268,21674123,31700507)Fujian Natural Science Foundation for Distinguished Young Scholars(2020J06039)+4 种基金Project of“100 People Planning in Fujian Province,”Fujian Provincial Department of Finance for the research of organic photovoltaic solar cell(Kle20001A)the Science and Technology Development Fund,Macao SAR(File no.FDCT-0044/2020/A1,0082/2021/A2)UM's research fund(File no.MYRG2020-00151-IAPME)Natural Science Foundation of Guangdong Province,China(2019A1515012186)Shenzhen-Hong Kong-Macao Science and Technology Innovation Project(Category C)(SGDX2020110309360100).
文摘Perovskite solar cells(PSCs)have been demonstrated to be one of the most promising technologies in the field of renewable energy.However,the presence of the defects in the perovskite films greatly limits the efficiency and the stability of the PSCs.The additive engineering is one of the most effective approaches to overcome this problem.Most of the successful additives are extracted from the petroleum-based materials,while the research on the biomass-based additives is still lagging behind.In this paper,two ecofriendly hydroxyalkyl cellulose additives,i.e.,hydroxyethyl cellulose(HEC)and hydroxylpropyl cellulose(HPC),are investigated on the performance of the MAPbl_(3)-based inverted PSCs.Due to the strong interaction between the hydroxyl groups of the cellulose and the divalent cations of the perovskite,these additives enhance the crystal grain orientation and significantly repair the defects of the perovskite films.Working as the additives,these two cellulose derivatives show a strong passivation ability,which significantly reduces the trap density and improves the optoelectronic feature of the PSCs.Compared with the average power conversion efficiency(PCE)of the control device(19.19%),an enhancement of~10%is achieved after the addition of HEC.The optimized device(PCE=21.25%)with a long-term stability(10:80 h,PCE=20.93%)is achieved by the incorporation of the HEC additives into the precursor solution.It is the best performance among the PSCs with the cellulose additives up to now.This research provides a novel choice to develop a cost-effective and renewable additive for the PSCs with high efficiency and excellent long-term stability.
文摘There has been now a lot of work done on the 1,3-dithianes chemistry. As a synthetic reagent, 1,3-dithiane has been widely applied to organic syntheses. But no report has been found in literature on the synthesis of derivatives of ferrocene by this versatile method, except that by Reuter et al. In our work a series of new ferrocenyl derivatives, 2-ferrocenyl-2-(1-hydroxyalkyl)-1, 3-dithianes have been synthesized through the following synthetic route:
