三阴性乳腺癌(triple negative breast cancer,TNBC)是一种特殊乳腺癌亚型,由于其耐药性强、侵袭性高、转移能力强、易复发及预后差等临床特点,导致临床治疗手段不足。CRISPR/Cas基因编辑系统的发展极大促进了对基因组结构和功能的理解...三阴性乳腺癌(triple negative breast cancer,TNBC)是一种特殊乳腺癌亚型,由于其耐药性强、侵袭性高、转移能力强、易复发及预后差等临床特点,导致临床治疗手段不足。CRISPR/Cas基因编辑系统的发展极大促进了对基因组结构和功能的理解,为研究疾病的发生发展提供了简单又有前途的工具。本综述描述了新兴的CRISPR/Cas技术及其对TNBC的新见解,展示了其临床应用的未来前景,并提出CRISPR技术与其他技术相结合,如三维体外细胞培养系统、单细胞测序和人工智能等,可早期诊断和精确治疗TNBC患者,从而达到精准医疗的目的。展开更多
Atomic layer deposition(ALD)has driven significant advancements in photovoltaic technologies by enabling the development of interlayers that improve both the efficiency and stability of devices.This review traces the ...Atomic layer deposition(ALD)has driven significant advancements in photovoltaic technologies by enabling the development of interlayers that improve both the efficiency and stability of devices.This review traces the evolution of ALD interlayers across various photovoltaic technologies,starting with early silicon solar cells and progressing into a variety of thin-film solar cells.We then delve into the role of ALD in state-of-the-art single-junction perovskite solar cells,particularly in optimizing the critical interfaces of perovskites/charge-transporting layers/-electrodes.Apart from that,we screen the functionality of ALD processing,which consists of reducing surface/interfacial defects and thus mitigating energy loss.Particularly,it enables efficient stacking of multiple thin layers,making a variety of tandem solar cells possible(silicon/perovskite,etc.)for higher efficiency.Moreover,the ALDprocessed interlayer prevents the ion migration between metals and perovskites,inhibiting the inter-diffusioninduced degradation of devices.Despite ALD technology extensively elevating the performance of above conventional/emerging solar cells,key challenges such as precursor flammability,cross-contamination during processing,and low deposition pace persist.We go over these challenges and expect our comprehensive overview of ALD techniques could shed light on pushing the envelope of photovoltaic efficiency.展开更多
One new bisbenzylisoquinoline alkaloid, neferine N-oxide (1), along with three known compounds, neferine (2), liensinine (3), and isoliensinine (4), were isolated from Plumulanelumbinis - the embryo of the see...One new bisbenzylisoquinoline alkaloid, neferine N-oxide (1), along with three known compounds, neferine (2), liensinine (3), and isoliensinine (4), were isolated from Plumulanelumbinis - the embryo of the seed of Nelumbonucifera. Their structures were elucidated by extensive spectroscopic analysis (MS, UV, IR, NMR), and the absolute configurations were determined by experimental circulardichroism (CD) spectra. Compound 1 is a new naturally occurring bisbenzylisoquinoline alkaloid with an N-oxide functionality, and the CD spectrum of (1R, 1'R) neferine is first reported. The antioxidant activities of compounds 1-4 were evaluated using the ORAC assay, which illustrated that all these compounds showed the different levels of oxygen radical absorbance capacity.展开更多
Before the practical application of rechargeable Zn-air batteries(ZABs),a critical issue regarding the inherent slow reaction kinetics of the oxygen reduction(ORR)and oxygen evolution(OER)must be addressed.Here,we fab...Before the practical application of rechargeable Zn-air batteries(ZABs),a critical issue regarding the inherent slow reaction kinetics of the oxygen reduction(ORR)and oxygen evolution(OER)must be addressed.Here,we fabricate a cost-effective bifunctional oxygen electrocatalyst with a self-antistacking structure,where three-dimensional(3D)Fe-Co bimetallic oxide particles(FeCoO_(x))are directly grown on 2D N-doped graphene(NG).The in situ grown FeCoO_(x)particles can alleviate the NG interlaminar restacking,ensuring abundant channels for diffusion of O_(2)/OH−species,while the NG allows rapid electron flow.Benefiting from this self-antistacking 3D-on-2D structure and synergetic electrocatalysis,FeCoO_(x)@NG demonstrated excellent activity for both ORR and OER(ΔE=0.78 V),which is superior to that of the binary mixtures of Pt/C and RuO_(2)(ΔE=0.83 V).A homemade ZAB with 20%-FeCoO_(x)@NG delivers a specific capacity of 758.9 mAh g^(−1),a peak power density of 215 mW cm^(−2),and long-term cyclability for over 400 h.These research results suggest that designing a bimetallic oxide/N-doped carbon 3D-on-2D nanoarchitecture using an in situ growth strategy is an attractive and feasible solution to overcome electrocatalytic problems in ZABs.展开更多
In this work, we proposed a novel three-dimensional (3D) plasmonic nanostructure based on porous graphene/nickel foam (GNF) and gas-phase deposited Ag nanoparticles (NPs). Ag NPs with high density were directly deposi...In this work, we proposed a novel three-dimensional (3D) plasmonic nanostructure based on porous graphene/nickel foam (GNF) and gas-phase deposited Ag nanoparticles (NPs). Ag NPs with high density were directly deposited on the surface of 3D GNF by performing a novel cluster beam deposition approach. In comparison with traditional Ag substrate (SiO2/Ag), such hot-spots enriched 3D nanostructure showed extremely high electromag-netic field enhancement under incident light irradiation which could be used as a sensitive chemical sensor based on surface enhanced Raman scattering (SERS). The experimental results demonstrated that the proposed nanostructure showed superior SERS performance in terms of Raman signal reproducibility and sensitivity for the probe molecules. 3D full-wave simulation showed that the enhanced SERS performance in this 3D hierarchical plasmonic nanostructure was mainly obtained from the hot-spots between Ag NPs and the near-field coupling between Ag NPs and GNF sca olds. This work can provide a novel assembled SERS substrate as a SERS-based chemical sensor in practical applications.展开更多
Albino tea,a type of tea closely associated with the chlorophyll-deficient phenotype is of great interest due to its multiple benefits to human health.To explore the potential mechanisms involved in albino tea,we perf...Albino tea,a type of tea closely associated with the chlorophyll-deficient phenotype is of great interest due to its multiple benefits to human health.To explore the potential mechanisms involved in albino tea,we performed metabolomics,DNA methylation and RNA-Seq analysis of green and albino leaves in a special tea mutant'Haishun 2'.The albino leaves accumulated significantly less catechins compared with the green leaves,which is closely associated with their difference in chlorophyll formation.A total of 385 candidate genes were identified by the integrative analysis.Two NAC transcription factors were less methylated and highly up regulated in the albino leaves of'Haishun 2',which was the first identification of the key roles of NAC transcription factors in albino tea and worth further study.Many genes involved in catechin biosynthesis were down regulated in albino leaves,such as 4-coumarate-CoA ligase,flavonol synthase and leucoanthocyanidin reductase genes,suggesting chlorophyll formation is important for catechin biosynthesis.Furthermore,CsMYB5 and CsGSTF11 were found to be differentially methylated and expressed in albino and green leaves,indicating their potential roles in catechin accumulation.This was the first report of the integrative analysis of transcriptome and DNA methylation data in tea plants and the results suggest that the integrative analysis is useful for exploring key genes associated with epigenetic changes in tea plants.展开更多
A polystyrene(PS)/nanosilica organic-inorganic hybrid material was prepared from styrene monomer and commercial aqueous silica sol containing large amounts of Si-OH by means of emulsion polymerization. The nanosilic...A polystyrene(PS)/nanosilica organic-inorganic hybrid material was prepared from styrene monomer and commercial aqueous silica sol containing large amounts of Si-OH by means of emulsion polymerization. The nanosilica sol was modified by the addition of the reactive coupling agent methacrylexy propyltrimethoxysilane ( MPS), and the resulting latex particles were protected by surfactants such as sodium dodecyl sulphonate( SDS), hydroxypropyl methyl cellulose ( HMPC), and poly (vinylpyrrolidone) (PVP). The effects of the type of surfactant, the amount of surfactant, and the coupling agent on the shape and stability of the resulting latex particles were investigated. The TEM observation indicates that among SDS, HMPC, and PVP, SDS is the best surfactant. When the content of SDS is 0. 5% and the amount of MPS is 7% in the system, the latex with obvious core-shell structure could be obtained. The average diameters of the monodispersed particles range from 182 to 278 nm, and the average number of silica beads for each composite are 1325 and 4409, respectively. The FrIR analysis shows that PS was chemically linked to silica through MPS. The thermal gravimetric analysis shows that when there is a higher silica content, the hybrid composites have a better heat resistance.展开更多
With the rapid development of digital signal processing chip in recent years, DSP began to be used in more switching power supply. The advantages of digital control of their own, making the digital control PFC become ...With the rapid development of digital signal processing chip in recent years, DSP began to be used in more switching power supply. The advantages of digital control of their own, making the digital control PFC become a hotspot research. However, compared with the simulation system, the digital control technology still has many problems. In this paper, the problem of digital PI compensator as a voltage compensator is discussed, and the Single-pole voltage loop compensator is used in digital control PFC circuit. Because current loop bandwidth is narrow, a method to expand current loop bandwidth is put forward. Output power 300 W of prototype is made, and experimental results verify the correctness of the theory.展开更多
文摘三阴性乳腺癌(triple negative breast cancer,TNBC)是一种特殊乳腺癌亚型,由于其耐药性强、侵袭性高、转移能力强、易复发及预后差等临床特点,导致临床治疗手段不足。CRISPR/Cas基因编辑系统的发展极大促进了对基因组结构和功能的理解,为研究疾病的发生发展提供了简单又有前途的工具。本综述描述了新兴的CRISPR/Cas技术及其对TNBC的新见解,展示了其临床应用的未来前景,并提出CRISPR技术与其他技术相结合,如三维体外细胞培养系统、单细胞测序和人工智能等,可早期诊断和精确治疗TNBC患者,从而达到精准医疗的目的。
基金supported by the Natural Science Foundation of Ningbo,China(2022J149)the Natural Science Foundation of Zhejiang Province,China(LY22E020010,LTGS24B030002)+1 种基金the Ningbo Science and Technology Project,China(2022-DST-004,2022A-230G,2024Z242)the National Key Research and Development Program of China,China(2021YFF0500501)。
文摘Atomic layer deposition(ALD)has driven significant advancements in photovoltaic technologies by enabling the development of interlayers that improve both the efficiency and stability of devices.This review traces the evolution of ALD interlayers across various photovoltaic technologies,starting with early silicon solar cells and progressing into a variety of thin-film solar cells.We then delve into the role of ALD in state-of-the-art single-junction perovskite solar cells,particularly in optimizing the critical interfaces of perovskites/charge-transporting layers/-electrodes.Apart from that,we screen the functionality of ALD processing,which consists of reducing surface/interfacial defects and thus mitigating energy loss.Particularly,it enables efficient stacking of multiple thin layers,making a variety of tandem solar cells possible(silicon/perovskite,etc.)for higher efficiency.Moreover,the ALDprocessed interlayer prevents the ion migration between metals and perovskites,inhibiting the inter-diffusioninduced degradation of devices.Despite ALD technology extensively elevating the performance of above conventional/emerging solar cells,key challenges such as precursor flammability,cross-contamination during processing,and low deposition pace persist.We go over these challenges and expect our comprehensive overview of ALD techniques could shed light on pushing the envelope of photovoltaic efficiency.
基金financially supported by 12th Five-Year Plan Major New Drug Discovery Science and Technology Projects for support of this research (No.2014ZX09304307-002)
文摘One new bisbenzylisoquinoline alkaloid, neferine N-oxide (1), along with three known compounds, neferine (2), liensinine (3), and isoliensinine (4), were isolated from Plumulanelumbinis - the embryo of the seed of Nelumbonucifera. Their structures were elucidated by extensive spectroscopic analysis (MS, UV, IR, NMR), and the absolute configurations were determined by experimental circulardichroism (CD) spectra. Compound 1 is a new naturally occurring bisbenzylisoquinoline alkaloid with an N-oxide functionality, and the CD spectrum of (1R, 1'R) neferine is first reported. The antioxidant activities of compounds 1-4 were evaluated using the ORAC assay, which illustrated that all these compounds showed the different levels of oxygen radical absorbance capacity.
基金Natural Science Foundation of Jiangsu forthe Outstanding Youth Fund,Grant/Award Number:BK20211590National Natural Science Foundation ofChina,Grant/Award Number:51802152。
文摘Before the practical application of rechargeable Zn-air batteries(ZABs),a critical issue regarding the inherent slow reaction kinetics of the oxygen reduction(ORR)and oxygen evolution(OER)must be addressed.Here,we fabricate a cost-effective bifunctional oxygen electrocatalyst with a self-antistacking structure,where three-dimensional(3D)Fe-Co bimetallic oxide particles(FeCoO_(x))are directly grown on 2D N-doped graphene(NG).The in situ grown FeCoO_(x)particles can alleviate the NG interlaminar restacking,ensuring abundant channels for diffusion of O_(2)/OH−species,while the NG allows rapid electron flow.Benefiting from this self-antistacking 3D-on-2D structure and synergetic electrocatalysis,FeCoO_(x)@NG demonstrated excellent activity for both ORR and OER(ΔE=0.78 V),which is superior to that of the binary mixtures of Pt/C and RuO_(2)(ΔE=0.83 V).A homemade ZAB with 20%-FeCoO_(x)@NG delivers a specific capacity of 758.9 mAh g^(−1),a peak power density of 215 mW cm^(−2),and long-term cyclability for over 400 h.These research results suggest that designing a bimetallic oxide/N-doped carbon 3D-on-2D nanoarchitecture using an in situ growth strategy is an attractive and feasible solution to overcome electrocatalytic problems in ZABs.
基金supported by the National Natural Science Foundation of China (No.11604161)the Natural Science Foundation of Jiangsu Province (No.BK20160914)+2 种基金the Natural Science Foundation of the Jiangsu Higher Education Institutions of China (No.16KJB140009)the Foundation from Nanjing University of Posts and Telecommunication (No.NY216012)the European Union’s Horizon 2020 Research and Innovation Programme under the Marie Sk lodowska-Curie Grant (No.752102)
文摘In this work, we proposed a novel three-dimensional (3D) plasmonic nanostructure based on porous graphene/nickel foam (GNF) and gas-phase deposited Ag nanoparticles (NPs). Ag NPs with high density were directly deposited on the surface of 3D GNF by performing a novel cluster beam deposition approach. In comparison with traditional Ag substrate (SiO2/Ag), such hot-spots enriched 3D nanostructure showed extremely high electromag-netic field enhancement under incident light irradiation which could be used as a sensitive chemical sensor based on surface enhanced Raman scattering (SERS). The experimental results demonstrated that the proposed nanostructure showed superior SERS performance in terms of Raman signal reproducibility and sensitivity for the probe molecules. 3D full-wave simulation showed that the enhanced SERS performance in this 3D hierarchical plasmonic nanostructure was mainly obtained from the hot-spots between Ag NPs and the near-field coupling between Ag NPs and GNF sca olds. This work can provide a novel assembled SERS substrate as a SERS-based chemical sensor in practical applications.
基金the Central Publicinterest Scientific Institution Basal Research Fund(1610212020002)the Major Project of Agricultural Science and Technology in Breeding of Tea Plant Variety in Zhejiang Province(2021C02067)Earmarked Fund for China Agriculture Research System(CARS-19).
文摘Albino tea,a type of tea closely associated with the chlorophyll-deficient phenotype is of great interest due to its multiple benefits to human health.To explore the potential mechanisms involved in albino tea,we performed metabolomics,DNA methylation and RNA-Seq analysis of green and albino leaves in a special tea mutant'Haishun 2'.The albino leaves accumulated significantly less catechins compared with the green leaves,which is closely associated with their difference in chlorophyll formation.A total of 385 candidate genes were identified by the integrative analysis.Two NAC transcription factors were less methylated and highly up regulated in the albino leaves of'Haishun 2',which was the first identification of the key roles of NAC transcription factors in albino tea and worth further study.Many genes involved in catechin biosynthesis were down regulated in albino leaves,such as 4-coumarate-CoA ligase,flavonol synthase and leucoanthocyanidin reductase genes,suggesting chlorophyll formation is important for catechin biosynthesis.Furthermore,CsMYB5 and CsGSTF11 were found to be differentially methylated and expressed in albino and green leaves,indicating their potential roles in catechin accumulation.This was the first report of the integrative analysis of transcriptome and DNA methylation data in tea plants and the results suggest that the integrative analysis is useful for exploring key genes associated with epigenetic changes in tea plants.
基金Supported by the National Natural Science Foundation of China(No. 50373037)the Special Funds for Major State BasicResearch Projects ( No. 2005CB623802) Specialized Research Fund for the Doctoral Program of Higher Education ( No.20040335077).
文摘A polystyrene(PS)/nanosilica organic-inorganic hybrid material was prepared from styrene monomer and commercial aqueous silica sol containing large amounts of Si-OH by means of emulsion polymerization. The nanosilica sol was modified by the addition of the reactive coupling agent methacrylexy propyltrimethoxysilane ( MPS), and the resulting latex particles were protected by surfactants such as sodium dodecyl sulphonate( SDS), hydroxypropyl methyl cellulose ( HMPC), and poly (vinylpyrrolidone) (PVP). The effects of the type of surfactant, the amount of surfactant, and the coupling agent on the shape and stability of the resulting latex particles were investigated. The TEM observation indicates that among SDS, HMPC, and PVP, SDS is the best surfactant. When the content of SDS is 0. 5% and the amount of MPS is 7% in the system, the latex with obvious core-shell structure could be obtained. The average diameters of the monodispersed particles range from 182 to 278 nm, and the average number of silica beads for each composite are 1325 and 4409, respectively. The FrIR analysis shows that PS was chemically linked to silica through MPS. The thermal gravimetric analysis shows that when there is a higher silica content, the hybrid composites have a better heat resistance.
文摘With the rapid development of digital signal processing chip in recent years, DSP began to be used in more switching power supply. The advantages of digital control of their own, making the digital control PFC become a hotspot research. However, compared with the simulation system, the digital control technology still has many problems. In this paper, the problem of digital PI compensator as a voltage compensator is discussed, and the Single-pole voltage loop compensator is used in digital control PFC circuit. Because current loop bandwidth is narrow, a method to expand current loop bandwidth is put forward. Output power 300 W of prototype is made, and experimental results verify the correctness of the theory.
