In the present study,the distribution of Ag in the coating formed on Mg-Ag alloy by plasma electrolytic oxidation(PEO)and its ionic release kinetics when exposed to a 0.9 wt.%Na Cl solution at 37℃have been investigat...In the present study,the distribution of Ag in the coating formed on Mg-Ag alloy by plasma electrolytic oxidation(PEO)and its ionic release kinetics when exposed to a 0.9 wt.%Na Cl solution at 37℃have been investigated.Both metallic Ag and Ag oxide particles with~5 to~40 nm in diameters were observed in the PEO coating.Further,an Ag-enriched layer of~20 nm in thickness at the substrate/coating interface was also observed.The PEO coating on the Mg-Ag alloy not only increases its corrosion resistance with the corrosion current density decreasing by up to 3 orders of magnitude from 8.04×10^(-3)to 4.03×10^(-6)A/cm^(2),but also controls the release of Ag+to the level that is sufficient for anti-infective efficacy without causing cytotoxicity to mammal cells.展开更多
Plants must adapt with increasing speed to global warming to maintain their fitness.One rapid adaptation mechanism is epigenetic memory,which may provide organisms sufficient time to adapt to climate change.We studied...Plants must adapt with increasing speed to global warming to maintain their fitness.One rapid adaptation mechanism is epigenetic memory,which may provide organisms sufficient time to adapt to climate change.We studied how the perennial Fragaria vesca adapted to warmer temperatures(28◦C vs.18◦C)over three asexual generations.Differences in flowering time,stolon number,and petiole length were induced by warmer temperature in one or more ecotypes after three asexual generations and persisted in a common garden environment.Induced methylome changes differed between the four ecotypes from Norway,Iceland,Italy,and Spain,but shared methylome responses were also identified.Most differentially methylated regions(DMRs)occurred in the CHG context,and most CHG and CHH DMRs were hypermethylated at the warmer temperature.In eight CHG DMR peaks,a highly similar methylation pattern could be observed between ecotypes.On average,13%of the differentially methylated genes between ecotypes also showed a temperature-induced change in gene expression.We observed ecotype-specific methylation and expression patterns for genes related to gibberellin metabolism,flowering time,and epigenetic mechanisms.Furthermore,we observed a negative correlation with gene expression when repetitive elements were found near(±2 kb)or inside genes.In conclusion,lasting phenotypic changes indicative of an epigenetic memory were induced by warmer temperature and were accompanied by changes in DNA methylation patterns.Both shared methylation patterns and transcriptome differences between F.vesca accessions were observed,indicating that DNA methylation may be involved in both general and ecotype-specific phenotypic variation.展开更多
Thermoelectric generators have attracted a wide research interest owing to their ability to directly convert heat into electrical power.Moreover,the thermoelectric properties of traditional inorganic and organic mater...Thermoelectric generators have attracted a wide research interest owing to their ability to directly convert heat into electrical power.Moreover,the thermoelectric properties of traditional inorganic and organic materials have been significantly improved over the past few decades.Among these compounds,layered two-dimensional(2D)materials,such as graphene,black phosphorus,transition metal dichalcogenides,IVA–VIA compounds,and MXenes,have generated a large research attention as a group of potentially high-performance thermoelectric materials.Due to their unique electronic,mechanical,thermal,and optoelectronic properties,thermoelectric devices based on such materials can be applied in a variety of applications.Herein,a comprehensive review on the development of 2D materials for thermoelectric applications,as well as theoretical simulations and experimental preparation,is presented.In addition,nanodevice and new applications of 2D thermoelectric materials are also introduced.At last,current challenges are discussed and several prospects in this field are proposed.展开更多
Heap bioleaching is one of the most clean and economical processes for recovery of low-grade and complex ores, because the sulfide minerals are natural habitats for acidophiles capable of iron-and sulfur-oxidation. Th...Heap bioleaching is one of the most clean and economical processes for recovery of low-grade and complex ores, because the sulfide minerals are natural habitats for acidophiles capable of iron-and sulfur-oxidation. The most exciting advances in heap bioleaching are occurring in the field of microbiology, especially with the development of advanced molecular biology approaches. These chemolithotrophic microorganisms living in the acid mine environment fix N_2 and CO_2 and obtain energy for growth from soluble ferrous iron and reduced inorganic sulfur compounds during oxidation of sulfide minerals. The ferric iron as oxidant and sulfuric acid are a result of microbial activity and provide favorable conditions for the dissolution of sulfide minerals. Various microbial consortia were applied successfully in commercial bioleaching heaps around the world, and microbial community and activity were adapted related to the local climatic conditions, ore characteristics and engineering configuration. This review focuses on diversity of bioleaching microbes, their role in heap bioleaching processes, their community structure and function in industrial heaps and the relation to the ore characteristics and the engineering configuration, to give implications for optimizing leaching efficiency of heap bioleaching.展开更多
The development of two-dimensional(2D)semiconductors has attracted widespread attentions in the scientific community and industry due to their ultra-thin thickness,unique structure,excellent optoelectronic properties ...The development of two-dimensional(2D)semiconductors has attracted widespread attentions in the scientific community and industry due to their ultra-thin thickness,unique structure,excellent optoelectronic properties and novel physics.The excellent flexibility and outstanding mechanical strength of 2D semiconductors provide opportunities for fabricated strain-sensitive devices and utilized strain tuning their electronic and optic–electric performance.The strain-engineered one-dimensional materials have been well investigated,while there is a long way to go for 2D semiconductors.In this review,starting with the fundamental theories of piezoelectric and piezoresistive effect resulted by strain,following we reviewed the recent simulation works of strain engineering in novel 2D semiconductors,such as Janus 2D and 2D-Xene structures.Moreover,recent advances in experimental observation of strain tuning PL spectra and transport behavior of 2D semiconductors are summarized.Furthermore,the applications of strain-engineered 2D semiconductors in sensors,photodetectors and nanogenerators are also highlighted.At last,we in-depth discussed future research directions of strain-engineered 2D semiconductor and related electronics and optoelectronics device applications.展开更多
All-optical devices without external electronic components have drawn extraordinary attentions in all-optical communication.In this work,boron quantum dots(BQDs)were synthesized by a facile liquid-phase exfoliation me...All-optical devices without external electronic components have drawn extraordinary attentions in all-optical communication.In this work,boron quantum dots(BQDs)were synthesized by a facile liquid-phase exfoliation method.The as-prepared BQDs showed good structural homogeneity and crystallinity,broadband optical absorption as well as excellent photothermal properties.Femtosecond-resolved transient absorption further revealed the short carrier relaxation time of BQDs.Inspired by the outstanding photothermal properties and ultrafast carrier dynamic of BQDs,we fabricated BQDsbased all-optical modulator.The phase shift with a slope efficiency of 0.032π/m W and response time of 0.97 ms can be achieved.The modulator was used in laser resonance cavity to achieve all-optical actively Q-switched laser operation with control repetition rate.This prototypical BQDs-based all-optical modulator shows a great potential to be applied in all-optical information processing and communication.展开更多
The nitrogen content of tetrazolo triazines is 68.9%.In this paper,tetrazolotriazines was synthetized.The TG-DSC test indicated its decomposition process in detail.The non-isothermal kinetic parameters were speculated...The nitrogen content of tetrazolo triazines is 68.9%.In this paper,tetrazolotriazines was synthetized.The TG-DSC test indicated its decomposition process in detail.The non-isothermal kinetic parameters were speculated by Kissinger and Ozawa methods.It revealed the mechanism function of thermal decomposition.The impact and friction sensitivity were tested.The detonation pressure and velocity were calculated.It has a wide range of potential applications as a kind of energetic material.展开更多
Thanks to the excellent optoelectronic properties,lead halide perovskites(LHPs)have been widely employed in highperformance optoelectronic devices such as solar cells and lightemitting diodes.However,overcoming their ...Thanks to the excellent optoelectronic properties,lead halide perovskites(LHPs)have been widely employed in highperformance optoelectronic devices such as solar cells and lightemitting diodes.However,overcoming their poor stability against water has been one of the biggest challenges for most applications.Herein,we report a novel hot-injection method in a Pb-poor environment combined with a well-designed purification process to synthesize water-dispersible CsPbBr_(3) nanocrystals(NCs).The as-prepared NCs sustain their superior photoluminescence(91%quantum yield in water)for more than 200 days in an aqueous environment,which is attributed to a passivation effect induced by excess CsBr salts.Thanks to the ultra-stability of these LHP NCs,for the first time,we report a new application of LHP NCs,in which they are applied to electrocatalysis of CO_(2) reduction reaction.Noticeably,they show significant electrocatalytic activity(faradaic yield:32%for CH4,40%for CO)and operation stability(>350 h).展开更多
[Objective] This study aimed to further explore the dynamics of related physiological indexes of rice seedlings under different NH4+ /NO3- ratio and different water condition. [Method] Under the hydroponic condition ...[Objective] This study aimed to further explore the dynamics of related physiological indexes of rice seedlings under different NH4+ /NO3- ratio and different water condition. [Method] Under the hydroponic condition in laboratory, 3 NH4+/NO3- ratios (0/100, 50/50 and 100/0) and 2 water conditions (+PEG,-PEG) were designed for Fengliangyou 7203. [Result] The root-canopy ratio of rice seedlings increased under any of the NH4+/NO3- ratios and water conditions. Under water stress, the root-canopy ratio of rice seedlings changed most greatly at the NH4+/NO3- ratio of 0/ 100; the overall water potential of rice seedlings reached the lowest at the NH4+/ NO3- ratio of 100/0; and the changes of water potential and xylem flow pH were relatively stable at the NH4+/NO3- ratio of 50/50. Under the condition of no water stress, the growth of rice seedlings was best at the NH4+/NO3- ratio of 50/50, followed by the NH4+/NO3- ratios of 0/100 and 100/0. [Conclusion] This study will pro- vide a basis for understanding the relationship between water potential and xylem flow.展开更多
In order to explore the application effect of the comprehensive control technology of"soil conditioning-organic planting-foliar control"in the rice area of northern Guangdong,the effects of combined applicat...In order to explore the application effect of the comprehensive control technology of"soil conditioning-organic planting-foliar control"in the rice area of northern Guangdong,the effects of combined application of different dosages of soil conditioner,bio-organic fertilizer and foliar control agent on heavy metal contents and yields of early and late rice were investigated based on field experiments.The results showed that different treatments of early rice and late rice all increased the yield.The yield increase rates of treatments 2,3 and 4 reached 4.9%,7.2%and 8.7%in early rice,respectively,and those in late rice reached 7.7%,7.8%and 9.7%,respectively.And the cadmium contents of early rice and late rice in treatments 2,3 and 4 were significantly reduced below the safe value.Taking into account factors such as cost,yield increase rate,and heavy metal compliance rate,the recommended application rate for early and late rice is conventional fertilization+soil conditioner 6000 kg/hm^(2)+bio-organic fertilizer 1800 kg/hm^(2)+foliar control agent 6000 ml/hm^(2).展开更多
[Objectives]In order to effectively alleviate Huanglongbing of Shatian pomelo trees,a nutrient preparation was developed and its effect on the growth and yield of Shatian pomelo was explored.[Methods]A field experimen...[Objectives]In order to effectively alleviate Huanglongbing of Shatian pomelo trees,a nutrient preparation was developed and its effect on the growth and yield of Shatian pomelo was explored.[Methods]A field experiment was carried out with four treatments:control group,nutrient solution group,agent group,and nutrient solution+agent group,and the liquids were infused into the fruit trees through the trunk using a hanging bag.[Results]Through field trials,it was found that the nutrient solution treatment of fruit trees significantly increased the leaf chlorophyll content and nitrogen content,which increased by 17%and 12%compared with the control group,respectively,reaching(70.80±1.57)and(5.53±0.1)mg/kg,respectively;and the combined application of the nutrient solution and powder agents greatly alleviated the symptoms of Huanglongbing in Shatian pomelo plants,and significantly improved the bacterial disease index,photosynthetic intensity and yield,which increased by 152%,158%and 213.53%respectively,reaching(371.00±7.22),(406.67±7.09)and 23.15 kg/hm^2.[Conclusions]The use of the nutrient solution and agents greatly alleviated the symptoms of Huanglongbing of Shatian pomelo plants,and significantly improved the chlorophyll content,nitrogen content,bacterial disease index and photosynthetic intensity.Meanwhile,the number of fruit per plant and the weight of single fruit were better than other treatment groups and the control group,the technical operation was simple and the effect was obvious.This provides a certain reference basis for the prevention and control measures of Huanglongbing in Shatian pomelo plants.展开更多
[Objectives] In order to solve the problem of heavy metal pollution in paddy fields,field experiments were carried out to study the effect of Ca-Si soil conditioner on heavy metal remediation in paddy fields. [Methods...[Objectives] In order to solve the problem of heavy metal pollution in paddy fields,field experiments were carried out to study the effect of Ca-Si soil conditioner on heavy metal remediation in paddy fields. [Methods] A conventional planting mode( CK) was used as the control,and a Ca-Si soil conditioner( Ca-Si) treatment was set to analyze the differences in soil pH and heavy metal contents in different treatments. [Results]The content of cadmium in the paddy field exceeded the soil pollution risk control value of agricultural land by 59. 33%. The Ca-Si soil conditioner increased the pH value of paddy field soil by 0. 58 unit. The fixation rates of Ca-Si soil conditioner on chromium,arsenic,cadmium and plumbum reached 75. 96%,14. 09%,18. 93% and 7. 81% compared with the CK,respectively,and the available cadmium and lead contents were reduced by 82. 35% and 80. 00%,respectively. [Conclusions]This study provides ideas and references for the remediation of heavy metal pollution in paddy soil.展开更多
[Objectives]With Polygonati Rhizoma steamed and sundried for 9 times as the main raw material, a type of Huangjing Zhima Pills was developed and its optimal formula was studied. [Methods] The Huangjing Zhima Pills was...[Objectives]With Polygonati Rhizoma steamed and sundried for 9 times as the main raw material, a type of Huangjing Zhima Pills was developed and its optimal formula was studied. [Methods] The Huangjing Zhima Pills was developed with nine-steamed nine-sundried Polygonati Rhizoma as the main raw material by adding black sesame, black beans, and honey. Taking sensory score and texture properties as evaluation indexes, the optimal formula parameters of Huangjing Zhima Pills were determined by single factor experiments and an orthogonal test combined with a formula scoring method. [Results] The best formula of Huangjing Zhima Pills was addition amount of nine-steamed nine-sundried Polygonati Rhizoma 25%, addition amount of black bean powder 15%, addition amount of honey added 17%, and addition amount of black sesame powder 30%. The moisture content in the finished product was(13.367±0.056) g/100 g, and the total colony count, Escherichia coli, mold and yeast and other microbial indexes all met the standards. The Huangjing Zhima Pills prepared under these conditions had pleasant sesame flavor and Polygonati Rhizoma flavor, delicate and sweet tasted, and a slight aftertaste of sweetness. Meanwhile, Polygonatum, black sesame and black beans are all medicinal and food homologous plants with certain health care effects, and the Huangjing Zhima Pills prepared from them are healthy snacks that people can carry and eat easily. [Conclusions] This study further enhances the added value of Polygonatum and provides a new way for the high-value utilization of Polygonatum.展开更多
With the reform of the state-owned enterprises, the level of the human resources management of a lot of state-owned enterprises has been gradually improved. However, because of the macroscopic system, history, culture...With the reform of the state-owned enterprises, the level of the human resources management of a lot of state-owned enterprises has been gradually improved. However, because of the macroscopic system, history, culture and their own reasons, there are still a series of problems in the human resources management of state-owned enterprises. In order to promote the reform of state-owned enterprises and to improve the competitiveness of enterprises, we should critically research these urgent problems. The paper will take an example of one company which was investigated by state-owned enterprises will be listed and analysed. the author, and the common problems which exist in most state-owned enterprises will be listed and analysed.展开更多
The high corrosion sensitivity and the potential bio-toxicity of Mg-Ag alloys limit their wide applications for the production of implanted devices. In the present work, Mn is added into the Mg-Ag alloy to optimize it...The high corrosion sensitivity and the potential bio-toxicity of Mg-Ag alloys limit their wide applications for the production of implanted devices. In the present work, Mn is added into the Mg-Ag alloy to optimize its corrosion behaviour. The corrosion behaviour of Mg-Ag-Mn alloys is investigated with the underlying microstructural factors examined. The Mg-Ag alloy with 2 wt% Mn exhibits the highest corrosion resistance after post-casting heat treatment at 440 ℃. The addition of Mn results in α-Mn phase with the incorporation of Fe, which suppresses the cathodic activity of impurity Fe. Further, heat treatment of the cast alloys homogenizes the distribution of Ag and promotes the precipitation of α-Mn phase. The former removes Ag segregations as potential cathodes;the latter promotes a more uniform distribution of cathodes and, therefore, prevents localized corrosion.展开更多
Neuromorphic computing aims to achieve artificial intelligence by mimicking the mechanisms of biological neurons and synapses that make up the human brain.However,the possibility of using one reconfigurable memristor ...Neuromorphic computing aims to achieve artificial intelligence by mimicking the mechanisms of biological neurons and synapses that make up the human brain.However,the possibility of using one reconfigurable memristor as both artificial neuron and synapse still requires intensive research in detail.In this work,Ag/SrTiO_(3)(STO)/Pt memristor with low operating voltage is manufactured and reconfigurable as both neuron and synapse for neuromorphic computing chip.By modulating the compliance current,two types of resistance switching,volatile and nonvolatile,can be obtained in amorphous STO thin film.This is attributed to the manipulation of the Ag conductive filament.Furthermore,through regulating electrical pulses and designing bionic circuits,the neuronal functions of leaky integrate and fire,as well as synaptic biomimicry with spike-timing-dependent plasticity and paired-pulse facilitation neural regulation,are successfully realized.This study shows that the reconfigurable devices based on STO thin film are promising for the application of neuromorphic computing systems.展开更多
Bacillus licheniformis is a characteristic Gram-positive bacterium originally found in soil.This microorganism has long been utilised as a workhorse for production of industrial enzymes or high value-added chemicals.W...Bacillus licheniformis is a characteristic Gram-positive bacterium originally found in soil.This microorganism has long been utilised as a workhorse for production of industrial enzymes or high value-added chemicals.With ever-increasing understand-ing on this strain and the maturation of the genetic technique,important advances have recently been made in developing B.licheniformis as an excellent chassis cell for synthetic biology.Here,we provide an overview of updated understanding on genome information,anaerobic metabolism,industrial applications of this strain.The state-of-art B.licheniformis genetics,especially its synthetic biology advances in biosensor,expression system and artificial metabolic pathways are illustrated.Finally,perspectives are offered for the limitations and challenges to be addressed to improve B.licheniformis as microbial cell factories.展开更多
Coronavirus disease 2019(COVID-19)is an acute respiratory infectious disease caused by severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection.It is highly contagious and can cause death in severe cases.A...Coronavirus disease 2019(COVID-19)is an acute respiratory infectious disease caused by severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection.It is highly contagious and can cause death in severe cases.As reported by the World Health Organization(WHO),as of 6:36 pm Central European Summer Time(CEST),12 August 2022,there had been 585950285 confirmed cases of COVID-19,including 6425422 deaths(WHO,2022).According to previous studies,healthcare workers(HCWs)have a higher risk of developing COVID-19 compared with the general community,and the severity of COVID-19 is closely related to the health-related effects after discharge(Huang et al.,2021).展开更多
基金the financial support from the Hubei Provincial Natural Science Foundation of China(No.2020CFB295)the National Natural Science Foundation of China(No.52001128)+1 种基金the Innovative Foundation of Huazhong University of Science and Technology(No.2021JYCXJJ023)the Innovation and Talent Recruitment Base of New Energy Chemistry and Device(No.B21003)。
文摘In the present study,the distribution of Ag in the coating formed on Mg-Ag alloy by plasma electrolytic oxidation(PEO)and its ionic release kinetics when exposed to a 0.9 wt.%Na Cl solution at 37℃have been investigated.Both metallic Ag and Ag oxide particles with~5 to~40 nm in diameters were observed in the PEO coating.Further,an Ag-enriched layer of~20 nm in thickness at the substrate/coating interface was also observed.The PEO coating on the Mg-Ag alloy not only increases its corrosion resistance with the corrosion current density decreasing by up to 3 orders of magnitude from 8.04×10^(-3)to 4.03×10^(-6)A/cm^(2),but also controls the release of Ag+to the level that is sufficient for anti-infective efficacy without causing cytotoxicity to mammal cells.
文摘Plants must adapt with increasing speed to global warming to maintain their fitness.One rapid adaptation mechanism is epigenetic memory,which may provide organisms sufficient time to adapt to climate change.We studied how the perennial Fragaria vesca adapted to warmer temperatures(28◦C vs.18◦C)over three asexual generations.Differences in flowering time,stolon number,and petiole length were induced by warmer temperature in one or more ecotypes after three asexual generations and persisted in a common garden environment.Induced methylome changes differed between the four ecotypes from Norway,Iceland,Italy,and Spain,but shared methylome responses were also identified.Most differentially methylated regions(DMRs)occurred in the CHG context,and most CHG and CHH DMRs were hypermethylated at the warmer temperature.In eight CHG DMR peaks,a highly similar methylation pattern could be observed between ecotypes.On average,13%of the differentially methylated genes between ecotypes also showed a temperature-induced change in gene expression.We observed ecotype-specific methylation and expression patterns for genes related to gibberellin metabolism,flowering time,and epigenetic mechanisms.Furthermore,we observed a negative correlation with gene expression when repetitive elements were found near(±2 kb)or inside genes.In conclusion,lasting phenotypic changes indicative of an epigenetic memory were induced by warmer temperature and were accompanied by changes in DNA methylation patterns.Both shared methylation patterns and transcriptome differences between F.vesca accessions were observed,indicating that DNA methylation may be involved in both general and ecotype-specific phenotypic variation.
基金supported by National Science Foundation for Young Scientists of China (No.61905161 and 51702219)the National Natural Science Foundation of China (No.61975134,61875138 and 61775147)+1 种基金the Science and Technology Innovation Commission of Shenzhen (No. JCYJ20180206121837007)the Shenzhen Nanshan District Pilotage Team Program (LHTD20170006)
文摘Thermoelectric generators have attracted a wide research interest owing to their ability to directly convert heat into electrical power.Moreover,the thermoelectric properties of traditional inorganic and organic materials have been significantly improved over the past few decades.Among these compounds,layered two-dimensional(2D)materials,such as graphene,black phosphorus,transition metal dichalcogenides,IVA–VIA compounds,and MXenes,have generated a large research attention as a group of potentially high-performance thermoelectric materials.Due to their unique electronic,mechanical,thermal,and optoelectronic properties,thermoelectric devices based on such materials can be applied in a variety of applications.Herein,a comprehensive review on the development of 2D materials for thermoelectric applications,as well as theoretical simulations and experimental preparation,is presented.In addition,nanodevice and new applications of 2D thermoelectric materials are also introduced.At last,current challenges are discussed and several prospects in this field are proposed.
基金funded by the National Natural Science Foundation of China(41401541,51674231)Bureau of International Co-operation,Chinese Academy of Sciences(122111KYSB20150013)
文摘Heap bioleaching is one of the most clean and economical processes for recovery of low-grade and complex ores, because the sulfide minerals are natural habitats for acidophiles capable of iron-and sulfur-oxidation. The most exciting advances in heap bioleaching are occurring in the field of microbiology, especially with the development of advanced molecular biology approaches. These chemolithotrophic microorganisms living in the acid mine environment fix N_2 and CO_2 and obtain energy for growth from soluble ferrous iron and reduced inorganic sulfur compounds during oxidation of sulfide minerals. The ferric iron as oxidant and sulfuric acid are a result of microbial activity and provide favorable conditions for the dissolution of sulfide minerals. Various microbial consortia were applied successfully in commercial bioleaching heaps around the world, and microbial community and activity were adapted related to the local climatic conditions, ore characteristics and engineering configuration. This review focuses on diversity of bioleaching microbes, their role in heap bioleaching processes, their community structure and function in industrial heaps and the relation to the ore characteristics and the engineering configuration, to give implications for optimizing leaching efficiency of heap bioleaching.
基金supported by the National Natural Science Foundation of China(51572025,51627801,61435010 and 51702219)the State Key Research Development Program of China(2019YFB2203503)+3 种基金Guangdong Basic and Applied Basic Research Foundation(2019A1515110209)the Science and Technology Innovation Commission of Shenzhen(JCYJ20170818093453105,JCYJ20180305125345378)National Foundation of China(41422050303)Beijing Municipal Science&Technology Commission and the Fundamental Research Funds for Central Universities.
文摘The development of two-dimensional(2D)semiconductors has attracted widespread attentions in the scientific community and industry due to their ultra-thin thickness,unique structure,excellent optoelectronic properties and novel physics.The excellent flexibility and outstanding mechanical strength of 2D semiconductors provide opportunities for fabricated strain-sensitive devices and utilized strain tuning their electronic and optic–electric performance.The strain-engineered one-dimensional materials have been well investigated,while there is a long way to go for 2D semiconductors.In this review,starting with the fundamental theories of piezoelectric and piezoresistive effect resulted by strain,following we reviewed the recent simulation works of strain engineering in novel 2D semiconductors,such as Janus 2D and 2D-Xene structures.Moreover,recent advances in experimental observation of strain tuning PL spectra and transport behavior of 2D semiconductors are summarized.Furthermore,the applications of strain-engineered 2D semiconductors in sensors,photodetectors and nanogenerators are also highlighted.At last,we in-depth discussed future research directions of strain-engineered 2D semiconductor and related electronics and optoelectronics device applications.
基金financial supports from the State Key Research Development Program of China(Grant No.2019YFB2203503)National Natural Science Fund(Grant No.61875138)the support from the Instrumental Analysis Center of Shenzhen University(Xili Campus)。
文摘All-optical devices without external electronic components have drawn extraordinary attentions in all-optical communication.In this work,boron quantum dots(BQDs)were synthesized by a facile liquid-phase exfoliation method.The as-prepared BQDs showed good structural homogeneity and crystallinity,broadband optical absorption as well as excellent photothermal properties.Femtosecond-resolved transient absorption further revealed the short carrier relaxation time of BQDs.Inspired by the outstanding photothermal properties and ultrafast carrier dynamic of BQDs,we fabricated BQDsbased all-optical modulator.The phase shift with a slope efficiency of 0.032π/m W and response time of 0.97 ms can be achieved.The modulator was used in laser resonance cavity to achieve all-optical actively Q-switched laser operation with control repetition rate.This prototypical BQDs-based all-optical modulator shows a great potential to be applied in all-optical information processing and communication.
基金Supported by the State Key Laboratory of Explosion Science and Technology(Beijing Institute of Technology)(YBKT16-09,QNKT16-03)
文摘The nitrogen content of tetrazolo triazines is 68.9%.In this paper,tetrazolotriazines was synthetized.The TG-DSC test indicated its decomposition process in detail.The non-isothermal kinetic parameters were speculated by Kissinger and Ozawa methods.It revealed the mechanism function of thermal decomposition.The impact and friction sensitivity were tested.The detonation pressure and velocity were calculated.It has a wide range of potential applications as a kind of energetic material.
基金This research was supported by the National Natural Science Foundation of China(Nos.11674258,51602305,51702219,61975134,11904250)Guangdong Basic and Applied Basic Research Foundation(2020B1515020051)+2 种基金the Science and Technology Innovation Commission of Shenzhen(JCYJ20180305125345378)Shenzhen Nanshan District Pilotage Team Program(LHTD20170006)Partial support from The Institute For Lasers,Photonics and Biophotonics at The University at Buffalo is also acknowledged.T.Z.and I.Z.were supported by the U.S.DOE,Office of Science BES,Award No.DE-SC0004890.
文摘Thanks to the excellent optoelectronic properties,lead halide perovskites(LHPs)have been widely employed in highperformance optoelectronic devices such as solar cells and lightemitting diodes.However,overcoming their poor stability against water has been one of the biggest challenges for most applications.Herein,we report a novel hot-injection method in a Pb-poor environment combined with a well-designed purification process to synthesize water-dispersible CsPbBr_(3) nanocrystals(NCs).The as-prepared NCs sustain their superior photoluminescence(91%quantum yield in water)for more than 200 days in an aqueous environment,which is attributed to a passivation effect induced by excess CsBr salts.Thanks to the ultra-stability of these LHP NCs,for the first time,we report a new application of LHP NCs,in which they are applied to electrocatalysis of CO_(2) reduction reaction.Noticeably,they show significant electrocatalytic activity(faradaic yield:32%for CH4,40%for CO)and operation stability(>350 h).
基金Supported by Natural Science Foundation of Guangdong Province(2014 A030307013)~~
文摘[Objective] This study aimed to further explore the dynamics of related physiological indexes of rice seedlings under different NH4+ /NO3- ratio and different water condition. [Method] Under the hydroponic condition in laboratory, 3 NH4+/NO3- ratios (0/100, 50/50 and 100/0) and 2 water conditions (+PEG,-PEG) were designed for Fengliangyou 7203. [Result] The root-canopy ratio of rice seedlings increased under any of the NH4+/NO3- ratios and water conditions. Under water stress, the root-canopy ratio of rice seedlings changed most greatly at the NH4+/NO3- ratio of 0/ 100; the overall water potential of rice seedlings reached the lowest at the NH4+/ NO3- ratio of 100/0; and the changes of water potential and xylem flow pH were relatively stable at the NH4+/NO3- ratio of 50/50. Under the condition of no water stress, the growth of rice seedlings was best at the NH4+/NO3- ratio of 50/50, followed by the NH4+/NO3- ratios of 0/100 and 100/0. [Conclusion] This study will pro- vide a basis for understanding the relationship between water potential and xylem flow.
基金Supported by Enterprise Science and Technology Commissioner Project of Guangdong Province(GDKTP2020020800)Natural Science Foundation of Guangdong Province(2021A1515010851)+1 种基金Undergraduate Innovation and Entrepreneurship Project(S202110576028X,202010576002X)Science and Technology Innovation Strategy Special Fund Project of Guangdong Province(pdjh2021b0455)。
文摘In order to explore the application effect of the comprehensive control technology of"soil conditioning-organic planting-foliar control"in the rice area of northern Guangdong,the effects of combined application of different dosages of soil conditioner,bio-organic fertilizer and foliar control agent on heavy metal contents and yields of early and late rice were investigated based on field experiments.The results showed that different treatments of early rice and late rice all increased the yield.The yield increase rates of treatments 2,3 and 4 reached 4.9%,7.2%and 8.7%in early rice,respectively,and those in late rice reached 7.7%,7.8%and 9.7%,respectively.And the cadmium contents of early rice and late rice in treatments 2,3 and 4 were significantly reduced below the safe value.Taking into account factors such as cost,yield increase rate,and heavy metal compliance rate,the recommended application rate for early and late rice is conventional fertilization+soil conditioner 6000 kg/hm^(2)+bio-organic fertilizer 1800 kg/hm^(2)+foliar control agent 6000 ml/hm^(2).
基金Shaoguan Science and Technology Project(2018sn046)Schoollevel Project of Shaoguan University(SY2016KJ04)Undergraduate Innovation Project of Shaoguan University(202010576002X)。
文摘[Objectives]In order to effectively alleviate Huanglongbing of Shatian pomelo trees,a nutrient preparation was developed and its effect on the growth and yield of Shatian pomelo was explored.[Methods]A field experiment was carried out with four treatments:control group,nutrient solution group,agent group,and nutrient solution+agent group,and the liquids were infused into the fruit trees through the trunk using a hanging bag.[Results]Through field trials,it was found that the nutrient solution treatment of fruit trees significantly increased the leaf chlorophyll content and nitrogen content,which increased by 17%and 12%compared with the control group,respectively,reaching(70.80±1.57)and(5.53±0.1)mg/kg,respectively;and the combined application of the nutrient solution and powder agents greatly alleviated the symptoms of Huanglongbing in Shatian pomelo plants,and significantly improved the bacterial disease index,photosynthetic intensity and yield,which increased by 152%,158%and 213.53%respectively,reaching(371.00±7.22),(406.67±7.09)and 23.15 kg/hm^2.[Conclusions]The use of the nutrient solution and agents greatly alleviated the symptoms of Huanglongbing of Shatian pomelo plants,and significantly improved the chlorophyll content,nitrogen content,bacterial disease index and photosynthetic intensity.Meanwhile,the number of fruit per plant and the weight of single fruit were better than other treatment groups and the control group,the technical operation was simple and the effect was obvious.This provides a certain reference basis for the prevention and control measures of Huanglongbing in Shatian pomelo plants.
基金Supported by Natural Science Foundation of Guangdong Province(2018A030307075)Special Fund for Science and Technology Innovation Strategy of Guangdong Province(135-99000206,432-99000228)+2 种基金Science and Technology Planning Project of Shaoguan City(2018sn038)School-level Project of Shaoguan University(SY2016KJ04)Undergraduate Innovation and Entrepreneurship Project(Sycxcy2017-041,201810576009)。
文摘[Objectives] In order to solve the problem of heavy metal pollution in paddy fields,field experiments were carried out to study the effect of Ca-Si soil conditioner on heavy metal remediation in paddy fields. [Methods] A conventional planting mode( CK) was used as the control,and a Ca-Si soil conditioner( Ca-Si) treatment was set to analyze the differences in soil pH and heavy metal contents in different treatments. [Results]The content of cadmium in the paddy field exceeded the soil pollution risk control value of agricultural land by 59. 33%. The Ca-Si soil conditioner increased the pH value of paddy field soil by 0. 58 unit. The fixation rates of Ca-Si soil conditioner on chromium,arsenic,cadmium and plumbum reached 75. 96%,14. 09%,18. 93% and 7. 81% compared with the CK,respectively,and the available cadmium and lead contents were reduced by 82. 35% and 80. 00%,respectively. [Conclusions]This study provides ideas and references for the remediation of heavy metal pollution in paddy soil.
基金Supported by Shaoguan Science and Technology Planning Project(200811154532467, 210722074530127)Natural Science Research Project of Shaoguan University (SY2021KJ01, SZ2020KJ09)Undergraduate Innovation and Enterpreneurship Training Program (S202110576028X)。
文摘[Objectives]With Polygonati Rhizoma steamed and sundried for 9 times as the main raw material, a type of Huangjing Zhima Pills was developed and its optimal formula was studied. [Methods] The Huangjing Zhima Pills was developed with nine-steamed nine-sundried Polygonati Rhizoma as the main raw material by adding black sesame, black beans, and honey. Taking sensory score and texture properties as evaluation indexes, the optimal formula parameters of Huangjing Zhima Pills were determined by single factor experiments and an orthogonal test combined with a formula scoring method. [Results] The best formula of Huangjing Zhima Pills was addition amount of nine-steamed nine-sundried Polygonati Rhizoma 25%, addition amount of black bean powder 15%, addition amount of honey added 17%, and addition amount of black sesame powder 30%. The moisture content in the finished product was(13.367±0.056) g/100 g, and the total colony count, Escherichia coli, mold and yeast and other microbial indexes all met the standards. The Huangjing Zhima Pills prepared under these conditions had pleasant sesame flavor and Polygonati Rhizoma flavor, delicate and sweet tasted, and a slight aftertaste of sweetness. Meanwhile, Polygonatum, black sesame and black beans are all medicinal and food homologous plants with certain health care effects, and the Huangjing Zhima Pills prepared from them are healthy snacks that people can carry and eat easily. [Conclusions] This study further enhances the added value of Polygonatum and provides a new way for the high-value utilization of Polygonatum.
文摘With the reform of the state-owned enterprises, the level of the human resources management of a lot of state-owned enterprises has been gradually improved. However, because of the macroscopic system, history, culture and their own reasons, there are still a series of problems in the human resources management of state-owned enterprises. In order to promote the reform of state-owned enterprises and to improve the competitiveness of enterprises, we should critically research these urgent problems. The paper will take an example of one company which was investigated by state-owned enterprises will be listed and analysed. the author, and the common problems which exist in most state-owned enterprises will be listed and analysed.
基金supported by the National Natural Science Foundation of China(Nos.52001128 and 52371065)the Hubei Provincial Natural Science Foundation of China(No.2023AFB637).
文摘The high corrosion sensitivity and the potential bio-toxicity of Mg-Ag alloys limit their wide applications for the production of implanted devices. In the present work, Mn is added into the Mg-Ag alloy to optimize its corrosion behaviour. The corrosion behaviour of Mg-Ag-Mn alloys is investigated with the underlying microstructural factors examined. The Mg-Ag alloy with 2 wt% Mn exhibits the highest corrosion resistance after post-casting heat treatment at 440 ℃. The addition of Mn results in α-Mn phase with the incorporation of Fe, which suppresses the cathodic activity of impurity Fe. Further, heat treatment of the cast alloys homogenizes the distribution of Ag and promotes the precipitation of α-Mn phase. The former removes Ag segregations as potential cathodes;the latter promotes a more uniform distribution of cathodes and, therefore, prevents localized corrosion.
基金supported by the National Key R&D Program of China (Grant No.2018AAA0103300)the National Key R&D Plan“Nano Frontier”Key Special Project (Grant No.2021YFA1200502)+13 种基金the Cultivation Projects of National Major R&D Project (Grant No.92164109)the National Natural Science Foundation of China (Grant Nos.61874158,62004056,and 62104058)the Special Project of Strategic Leading Science and Technology of Chinese Academy of Sciences (Grant No.XDB44000000-7)Hebei Basic Research Special Key Project (Grant No.F2021201045)the Support Program for the Top Young Talents of Hebei Province (Grant No.70280011807)the Supporting Plan for 100 Excellent Innovative Talents in Colleges and Universities of Hebei Province (Grant No.SLRC2019018)the Interdisciplinary Research Program of Natural Science of Hebei University (No.DXK202101)Institute of Life Sciences and Green Development (No.521100311)the Natural Science Foundation of Hebei Province (Nos.F2022201054 and F2021201022)the Outstanding Young Scientific Research and Innovation team of Hebei University (Grant No.605020521001)Special Support Funds for National High Level Talents (Grant No.041500120001)High-level Talent Research Startup Project of Hebei University (Grant No.521000981426)the Science and Technology Project of Hebei Education Department (Grant Nos.QN2020178 and QN2021026)Baoding Science and Technology Plan Project (Nos.2172P011 and 2272P014).
文摘Neuromorphic computing aims to achieve artificial intelligence by mimicking the mechanisms of biological neurons and synapses that make up the human brain.However,the possibility of using one reconfigurable memristor as both artificial neuron and synapse still requires intensive research in detail.In this work,Ag/SrTiO_(3)(STO)/Pt memristor with low operating voltage is manufactured and reconfigurable as both neuron and synapse for neuromorphic computing chip.By modulating the compliance current,two types of resistance switching,volatile and nonvolatile,can be obtained in amorphous STO thin film.This is attributed to the manipulation of the Ag conductive filament.Furthermore,through regulating electrical pulses and designing bionic circuits,the neuronal functions of leaky integrate and fire,as well as synaptic biomimicry with spike-timing-dependent plasticity and paired-pulse facilitation neural regulation,are successfully realized.This study shows that the reconfigurable devices based on STO thin film are promising for the application of neuromorphic computing systems.
基金supported by National Key Research&Development Program of China(2018YFA0900504,2020YFA0907700,and 2018YFA0900300)the National Natural Foundation of China(31401674)+1 种基金the National First-Class Discipline Program of Light Industry Technology and Engineering(LITE2018-22)the Top-notch Academic Programs Project of Jiangsu Higher Education Institutions.
文摘Bacillus licheniformis is a characteristic Gram-positive bacterium originally found in soil.This microorganism has long been utilised as a workhorse for production of industrial enzymes or high value-added chemicals.With ever-increasing understand-ing on this strain and the maturation of the genetic technique,important advances have recently been made in developing B.licheniformis as an excellent chassis cell for synthetic biology.Here,we provide an overview of updated understanding on genome information,anaerobic metabolism,industrial applications of this strain.The state-of-art B.licheniformis genetics,especially its synthetic biology advances in biosensor,expression system and artificial metabolic pathways are illustrated.Finally,perspectives are offered for the limitations and challenges to be addressed to improve B.licheniformis as microbial cell factories.
基金supported by the Rehabilitation Care Project for Medical Staff Infected with COVID-19 in China launching by Chinese Academy of Engineering and Tencent Foundation.
文摘Coronavirus disease 2019(COVID-19)is an acute respiratory infectious disease caused by severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection.It is highly contagious and can cause death in severe cases.As reported by the World Health Organization(WHO),as of 6:36 pm Central European Summer Time(CEST),12 August 2022,there had been 585950285 confirmed cases of COVID-19,including 6425422 deaths(WHO,2022).According to previous studies,healthcare workers(HCWs)have a higher risk of developing COVID-19 compared with the general community,and the severity of COVID-19 is closely related to the health-related effects after discharge(Huang et al.,2021).
