A scheme of rogue access point(Rogue AP)detection based on AP's localization is proposed.Global position system(GPS)information and received signal strength(RSS)information are used to get the location of AP in a ...A scheme of rogue access point(Rogue AP)detection based on AP's localization is proposed.Global position system(GPS)information and received signal strength(RSS)information are used to get the location of AP in a smartphone,which is compared with the database located in a remote server.The proposed scheme can detect not only fake access point(Fake AP)but also Evil Twin AP.It can be a user-oriented solution to detecting Rogue AP threats,and users can use it flexibly.展开更多
In this work, the waste biomass lotus leaf was converted into N-doped porous carbonaceous CO_(2) adsorbents. The synthesis process includes carbonization of lotus leaf, melamine post-treatment and KOH activation. For ...In this work, the waste biomass lotus leaf was converted into N-doped porous carbonaceous CO_(2) adsorbents. The synthesis process includes carbonization of lotus leaf, melamine post-treatment and KOH activation. For the resultant sorbents, high nitrogen content can be contained due to the melamine modification and advanced porous structure were formed by KOH etching. These samples were carefully characterized by different techniques and their CO_(2) adsorption properties were investigated in detail. These sorbents hold good CO_(2) adsorption abilities, up to 3.87 and 5.89 mmol/g at 25 and 0 °C under 1 bar, respectively. By thorough investigation, the combined interplay of N content and narrow microporous volume was found to be responsible for the CO_(2) uptake for this series of sorbents. Together with the high CO_(2) adsorption abilities, these carbons also display excellent reversibility, high CO_(2)/N 2 selectivity, applicable heat of adsorption, fast CO_(2) adsorption kinetics and good dynamic CO_(2) adsorption capacity. This study reveals a universal method of obtaining N-doped porous carbonaceous sorbents from leaves. The low cost of raw materials accompanied by easy synthesis procedure disclose the enormous potential of leaves-based carbons in CO_(2) capture as well as many other applications.展开更多
Background: Recently, optogenetics based on genetically encoded photosensitive proteins has emerged as an innovative technology platform to revolutionize manipulation of cellular behavior through fight stimulation. I...Background: Recently, optogenetics based on genetically encoded photosensitive proteins has emerged as an innovative technology platform to revolutionize manipulation of cellular behavior through fight stimulation. It has enabled user defined control of various cellular behaviors with spatiotemporal precision and minimal invasiveness, creating unprecedented opportunities for biomedical applications. Results: This article reviews current advances in optogenetic networks designed for the treatment of human diseases. We highlight the advantages of these optogenetic networks, as well as emerging questions and future perspectives. Conclusions: Various optogenetic systems have been engineered to control biological processes at all levels using light and applied for numerous diseases, such as metabolic disorders, cancer, and immune diseases. Continued development of optogenetic modules will be necessary to precisely control of gene expression magnitude towards clinical medical practice in the context of real-world problems.展开更多
Acenapththylene-imide(An I),similar to naphthalene diimide(NDI),is an outstanding building block for organic functional materials and has gained a lot of research attention.Herein,Sulphur and Selenium-embedded AnI-con...Acenapththylene-imide(An I),similar to naphthalene diimide(NDI),is an outstanding building block for organic functional materials and has gained a lot of research attention.Herein,Sulphur and Selenium-embedded AnI-containing polycyclic aromatic hydrocarbon molecules,AnI-SQ and AnI-SeQ,with[1,2,5]thiadiazolo[3,4-g]quinoxaline(SQ)and[1,2,5]selenadiazolo[3,4-g]quinoxaline(Se Q)are designed and synthesized with low-lying LUMO energy levels.The absorption and emission of AnI-SQ and An I-Se Q displayed a bathochromic shift upon protonation of the C=N bond.Besides,theoretical calculation indicates remarkable rigid planar backbones for both An I-SQ and An I-Se Q.Through self-assembly with polymeric Pluronic?F-127,corresponding hydrophilic nanoparticles(NPs)were prepared with low cytotoxicity.And AnI-SQ NPs could be applied for in vitro two-photon fluorescence imaging.展开更多
Diabetes treatment and rehabilitation are usually a lifetime process.Optogenetic engineered designer cell-therapy holds great promise in regulating blood glucose homeostasis.However,portable,sustainable,and long-term ...Diabetes treatment and rehabilitation are usually a lifetime process.Optogenetic engineered designer cell-therapy holds great promise in regulating blood glucose homeostasis.However,portable,sustainable,and long-term energy supplementation has previously presented a challenge for the use of optogenetic stimulation in vivo.Herein,we_purpose a self-powered optogenetic system(SOS)for implantable blood glucose control.The SOS consists of a biocompatible far-red light(FRL)source,FRL-triggered transgene-expressing cells,a power management unit,and a flexible implantable piezoelectric nanogenerator(i-PENG)to supply long-term energy by converting biomechanical energy into electricity.Our results show that this system can harvest energy from body movement and power the FRL source,which then significantly enhanced production of a short variant of human glucagon-like peptide 1(shGLP-1)in vitro and in vivo.Indeed,diabetic mice equipped with the SOS showed rapid restoration of blood glucose homeostasis,improved glucose,and insulin tolerance.Our results suggest that the SOs is sufficiently effective in self-powering the modulation of therapeutic outputs to control glucose homeostasis and,furthermore,present a new strategy for providing energy in optogenetic-based cell therapy.展开更多
基金The KCC(Korea Communications Commission),Korea,under the R&D program supervised by the KCA(Korea Communications Agency)(KCA-2012-08-911-05-001)
文摘A scheme of rogue access point(Rogue AP)detection based on AP's localization is proposed.Global position system(GPS)information and received signal strength(RSS)information are used to get the location of AP in a smartphone,which is compared with the database located in a remote server.The proposed scheme can detect not only fake access point(Fake AP)but also Evil Twin AP.It can be a user-oriented solution to detecting Rogue AP threats,and users can use it flexibly.
基金supported by the National Natural Science Foundation of China (61604071, 61525402, 61604119, 61704131 and 61775095)Natural Science Foundation of Jiangsu Province (BK20161012)+1 种基金Postgraduate Research & Practice Innovation Program of Jiangsu Province (SJZZ16_0139)SICAM Scholarship (38600001)
基金supported by the Zhejiang Provincial Natural Science Foundation(No.LY21B070005)National Undergraduate Training Program for Innovation and Entrepreneurship of China(No.202010345025)。
文摘In this work, the waste biomass lotus leaf was converted into N-doped porous carbonaceous CO_(2) adsorbents. The synthesis process includes carbonization of lotus leaf, melamine post-treatment and KOH activation. For the resultant sorbents, high nitrogen content can be contained due to the melamine modification and advanced porous structure were formed by KOH etching. These samples were carefully characterized by different techniques and their CO_(2) adsorption properties were investigated in detail. These sorbents hold good CO_(2) adsorption abilities, up to 3.87 and 5.89 mmol/g at 25 and 0 °C under 1 bar, respectively. By thorough investigation, the combined interplay of N content and narrow microporous volume was found to be responsible for the CO_(2) uptake for this series of sorbents. Together with the high CO_(2) adsorption abilities, these carbons also display excellent reversibility, high CO_(2)/N 2 selectivity, applicable heat of adsorption, fast CO_(2) adsorption kinetics and good dynamic CO_(2) adsorption capacity. This study reveals a universal method of obtaining N-doped porous carbonaceous sorbents from leaves. The low cost of raw materials accompanied by easy synthesis procedure disclose the enormous potential of leaves-based carbons in CO_(2) capture as well as many other applications.
文摘Background: Recently, optogenetics based on genetically encoded photosensitive proteins has emerged as an innovative technology platform to revolutionize manipulation of cellular behavior through fight stimulation. It has enabled user defined control of various cellular behaviors with spatiotemporal precision and minimal invasiveness, creating unprecedented opportunities for biomedical applications. Results: This article reviews current advances in optogenetic networks designed for the treatment of human diseases. We highlight the advantages of these optogenetic networks, as well as emerging questions and future perspectives. Conclusions: Various optogenetic systems have been engineered to control biological processes at all levels using light and applied for numerous diseases, such as metabolic disorders, cancer, and immune diseases. Continued development of optogenetic modules will be necessary to precisely control of gene expression magnitude towards clinical medical practice in the context of real-world problems.
基金supported by the Natural Science Foundation of Jiangsu Province(No.BK20200092)the National Natural Science Foundation of China(No.21972067)。
文摘Acenapththylene-imide(An I),similar to naphthalene diimide(NDI),is an outstanding building block for organic functional materials and has gained a lot of research attention.Herein,Sulphur and Selenium-embedded AnI-containing polycyclic aromatic hydrocarbon molecules,AnI-SQ and AnI-SeQ,with[1,2,5]thiadiazolo[3,4-g]quinoxaline(SQ)and[1,2,5]selenadiazolo[3,4-g]quinoxaline(Se Q)are designed and synthesized with low-lying LUMO energy levels.The absorption and emission of AnI-SQ and An I-Se Q displayed a bathochromic shift upon protonation of the C=N bond.Besides,theoretical calculation indicates remarkable rigid planar backbones for both An I-SQ and An I-Se Q.Through self-assembly with polymeric Pluronic?F-127,corresponding hydrophilic nanoparticles(NPs)were prepared with low cytotoxicity.And AnI-SQ NPs could be applied for in vitro two-photon fluorescence imaging.
基金We are grateful to all the laboratory members for their cooperation in this study.This work was financially supported by grants from the National Key R&D Program of China,Synthetic Biology Research(no.2019YFA0904500)the National Natural Science Foundation of China(nos.82102231,31971346,61875015,31861143016,U20A20390,11827803,and T2125003)+4 种基金the Science and Technology Commission of Shanghai Municipality(no.22N31900300)Beijing Natural Science Foundation(JQ20038,L212010)China Postdoctoral Science Foundation(2020M680302,2021T140041)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA16021101)We also thank the ECNU Multifunctional Platform for Innovation(011)for supporting the murine experiments and the Instruments Sharing Platform of the School of Life Sciences,ECNU.
文摘Diabetes treatment and rehabilitation are usually a lifetime process.Optogenetic engineered designer cell-therapy holds great promise in regulating blood glucose homeostasis.However,portable,sustainable,and long-term energy supplementation has previously presented a challenge for the use of optogenetic stimulation in vivo.Herein,we_purpose a self-powered optogenetic system(SOS)for implantable blood glucose control.The SOS consists of a biocompatible far-red light(FRL)source,FRL-triggered transgene-expressing cells,a power management unit,and a flexible implantable piezoelectric nanogenerator(i-PENG)to supply long-term energy by converting biomechanical energy into electricity.Our results show that this system can harvest energy from body movement and power the FRL source,which then significantly enhanced production of a short variant of human glucagon-like peptide 1(shGLP-1)in vitro and in vivo.Indeed,diabetic mice equipped with the SOS showed rapid restoration of blood glucose homeostasis,improved glucose,and insulin tolerance.Our results suggest that the SOs is sufficiently effective in self-powering the modulation of therapeutic outputs to control glucose homeostasis and,furthermore,present a new strategy for providing energy in optogenetic-based cell therapy.