Circulose,a global leader in recycled pulp production,hasreached a strategic partnership agreement with Tangshan SanyouChemical Fiber,a front-runner in the cellulose fiber industry.Thiscollaboration marks a significan...Circulose,a global leader in recycled pulp production,hasreached a strategic partnership agreement with Tangshan SanyouChemical Fiber,a front-runner in the cellulose fiber industry.Thiscollaboration marks a significant milestone in the commercializa-tion and scaling of CIRCULOSER,whle also propelling TangshanSanyou's brand toward greater international recognition.展开更多
Owing to eccentricity and inclination, circularity of a cylindrical workpiece cannot be measured precisely by a circularity measuring machine when the workpiece has a small dimension(diameter ≤ 3 mm). In this paper, ...Owing to eccentricity and inclination, circularity of a cylindrical workpiece cannot be measured precisely by a circularity measuring machine when the workpiece has a small dimension(diameter ≤ 3 mm). In this paper, with the aim of solving this problem, circularity metrology of a small cylindrical workpiece using a segmenting scanning method is analyzed. The cross-sectional circle of the cylinder is segmented into several equivalent arcs for measurement by a two-dimensional coordinate measuring machine(profilometer). The circularity contour is obtained by stitching together arc contours obtained by data processing of the coordinates. Different segmenting patterns for coordinate scanning are considered. Measurement results are presented for three segmentation patterns, with 8, 10, and 12 equal segments, respectively.These results are evaluated in terms of the matching coefficient between neighboring arc contours on circumferential stitching, the Euclidean distance between neighboring arc contours on radial stitching, and the curvature of the arcs. From these evaluations, it is found that as the number of segments is increased, the matching coefficient increases from 0.14 to 0.50, the Euclidean distance decreases from 32 nm to 26 nm,and the curvature becomes close to the standard value.展开更多
Excessive fossil fuel use has increased carbon dioxide(CO_(2)) emissions,driving climate change and ocean acidification.This review evaluates the potential of higher alcohols as fuels for carbon circularity,comparing ...Excessive fossil fuel use has increased carbon dioxide(CO_(2)) emissions,driving climate change and ocean acidification.This review evaluates the potential of higher alcohols as fuels for carbon circularity,comparing their properties,energy efficiency,and technology readiness with hydrogen,methane,and methanol.Higher alcohols,produced via CO_(2) hydrogenation,exhibit advantages such as liquid-phase storage,higher energy density,and safer handling.Additionally,their clean combustion produces fewer pollutants like CO and NO_(x).However,CO_(2) hydrogenation to higher alcohols faces challenges,including high energy demands,kinetic barriers,and immature production technologies,resulting in lower energy efficiency compared to H_(2),methane,and methanol.Higher alcohols,with their superior energy density and safety,hold promise as sustainable fuels,particularly when integrated with CO_(2) capture technologies.However,improvements in catalyst performance,process integration,and production scalability are critical for their widespread adoption.展开更多
Background: The shape of the capitellum has been traditionally described in anatomy books as part of a sphere. Alteration in the capitellar morphology following pathologies such as fractures, osteochondrosis, and dege...Background: The shape of the capitellum has been traditionally described in anatomy books as part of a sphere. Alteration in the capitellar morphology following pathologies such as fractures, osteochondrosis, and degenerative arthritis has been associated with less optimum functional results. Aim: To define the relationship between the sphericity of the capitellar morphology as measured on trauma series plain radiographs and the elbow range of motion. Methods: 40 patients were included in the study. All patients recruited from the upper limb clinics presented with non-elbow joint-related complaints. The elbow range of motion was measured using a standardized technique. Digital anteroposterior and lateral radiographs of patients’ elbows were used to measure capitellar circularity using the ImageJ processing program and circularity calculation equation. Correlation analyses were conducted between the degree of capitellar sphericity and elbow range of motion. Results: The results of measurements from the anteroposterior radiographs showed a positive correlation between increased circularity and an increase in the range of flexion, pronation, and supination. The range of extension decreased with the increased circularity of the capitellum. This trend was repeated with measures of lateral radiographs but was statistically not significant. Conclusion: Native capitellar circularity has an impact on the elbow range of motion. This should be put into consideration when dealing with pathologies that affect capitellar morphology.展开更多
To reduce the stitching error of circularity measurement of small cylindrical workpieces(Diameter less than 3 mm)by the segmenting-stitching method,arc contour extraction is analyzed in this paper.The coordinates of c...To reduce the stitching error of circularity measurement of small cylindrical workpieces(Diameter less than 3 mm)by the segmenting-stitching method,arc contour extraction is analyzed in this paper.The coordinates of cross-sectional circle of a small cylindrical part are segmented into several equal arcs to be obtained by a two-dimensional coordinate measuring machine.The circularity contour of the small cylindrical part can be formed by stitching a series of arc contours which are calculated by the obtained arc coordinate data.Due to the different measuring pressure angles of different measuring positions,the accuracy of obtained arc coordinate points is different.The bigger the pressure angle is,the accurate the obtained arc coordinate data are.The experiments show that the accuracy of two ends of the arc data is not as good as the central part.Therefore,the two ends of the obtained arc data are appropriately to be cut off,namely,only the central part of the arc data are extracted to be used for the stitching.As a result,the mean value of the matching coefficient is enhanced by 12%,the deviation between the overlap part of the neighbouring arc contour is reduced by 26%,and the average curvature of the arc contours is improved with the extraction method.Thus,the accuracy of the stitched circularity contour can be improved by this extraction procedure in the segmenting-stitching method for the circularity measurement of the small cylindrical parts.展开更多
To address the alignment and measuring force problem in the segmenting-stitching technique for the circularity metrology of small cylindrical workpieces(diameter less than 1.5 mm and length less than 10 mm),a magnet c...To address the alignment and measuring force problem in the segmenting-stitching technique for the circularity metrology of small cylindrical workpieces(diameter less than 1.5 mm and length less than 10 mm),a magnet combination jig method is proposed.A small round magnet is attached between the round magnetic jig and small cylinder,and the other end of the small cylindrical workpiece is attached to some cylindrical magnets.Thus,the smaller cylinder can be put in the V-groove and measured successfully with the magnet combination.For verifying the advantage of the magnet combination jig,four measurement quality evaluations are proposed:the circumferential deviation of neighbor arc contours,radial deviation of neighbor arc contours,angle of inclination between the V-groove and small cylinder,and curvature of the obtained arc.The results show that the matching coefficient is enhanced by 98%,the Euclidean distance of overlap parts of neighbor arc contours is reduced by 68%,the position error is reduced 27%,and the average curvature of the arc contours is improved.It can be concluded that the measuring quality can be enhanced prominently by this magnet combination method for the segmenting-stitching method.展开更多
Dear Editor,The nice manuscript of Reddy et al^([1])regarding comparison of capsulotomy using three different techniques raises some issues which I will discuss in short.Use of newer technologies in phacoemulsificatio...Dear Editor,The nice manuscript of Reddy et al^([1])regarding comparison of capsulotomy using three different techniques raises some issues which I will discuss in short.Use of newer technologies in phacoemulsification is always of interest to researchers and the authors have compared three techniques which will help us choose the best technique.The study is properly designed and analyzed.I was impressed by detailed analysis and discussion.展开更多
Packaging materials are indispensable in modern industries but also significantly contribute to environmental degradation,resource consumption,and waste generation.This systematic review critically assesses the integr...Packaging materials are indispensable in modern industries but also significantly contribute to environmental degradation,resource consumption,and waste generation.This systematic review critically assesses the integration of artificial intelligence(AI),life cycle sustainability assessment(LCSA)following ISO 14040 standards,and circularity mapping to overcome sustainability barriers in packaging.The study identifies environmental,economic,and social hotspots across the life cycle stages of packaging materials by examining real-worldcase studies such as Coca-Cola’s adoption of recycled PET bottles andUnilever’s commitment to 100% recyclable plastic.AI technologies highlight transformative tools for optimising resource allocation,enhancing waste management,and supporting predictive maintenance in packaging systems.To maximise their impact,circular economy(CE)strategies,including material substitution,reusable packaging,and recycling,are discussed with AI-driven approaches.Policy frameworks like mandatory life cycle reporting and AI-focused capacity-building initiatives drive systemic change.The packaging industry achieves significant sustainability improvements by combining LCSA,CE principles,and AI while fostering economic benefits and social equity.This paper provides a comprehensive foundation for future research and practical applications to transform the packaging sector into a more sustainable and circular system.This review is the first to integrate LCSA,circular economy mapping,and AI applications in sustainable packaging.It highlights practical strategies and identifies research gaps to guide academia,industry,and policymakers toward scalable and intelligent sustainability solutions.Moreover,the review bridges methodological rigour with practical implementation by aligning digital intelligence with material sustainability frameworks,thus forming a multidisciplinary blueprint for a circular future in packaging.展开更多
This study examines consumer resistance to the reuse value of the UK second-hand school uniform market,drawing on eco-philosophy and circular economy frameworks.Specifically,it examines how environmental knowledge,the...This study examines consumer resistance to the reuse value of the UK second-hand school uniform market,drawing on eco-philosophy and circular economy frameworks.Specifically,it examines how environmental knowledge,the 3R principle(reuse,reduce,recycle),cost saving,and perceived social norms shape attitudes toward reusage.A Google survey of parents,students,and community members provided quantitative data,which were used to connect three eco-philosophy frameworks and address gaps in the current understanding.This article examines the issue through three eco-philosophy frameworks,highlighting the need for stronger policies that promote the adoption of second-hand school uniforms.Further findings from case studies highlight that decision-making motivation,social norms,and incentives are central to participation.Overall,the study confirms that ecological ethics,school culture,and behavioral change collectively inform policies and environmental benefits of lowcarbon lifestyles,enhancing sustainable uniform reuse in the UK.展开更多
Resource depletion and environmental degradation have fueled a burgeoning discipline of anthropogenic circularity since the 2010s.It generally consists of waste reuse,remanufacturing,recycling,and recovery.Circular ec...Resource depletion and environmental degradation have fueled a burgeoning discipline of anthropogenic circularity since the 2010s.It generally consists of waste reuse,remanufacturing,recycling,and recovery.Circular economy and“zero-waste”cities are sweeping the globe in their current practices to address the world’s grand concerns linked to resources,the environment,and industry.Meanwhile,metal criticality and carbon neutrality,which have become increasingly popular in recent years,denote the material's feature and state,respectively.The goal of this article is to determine how circularity,criticality,and neutrality are related.Upscale anthropogenic circularity has the potential to expand the metal supply and,as a result,reduce metal criticality.China barely accomplished 15%of its potential emission reduction by recycling iron,copper,and aluminum.Anthropogenic circularity has a lot of room to achieve a win-win objective,which is to reduce metal criticality while also achieving carbon neutrality in a near closed-loop cycle.Major barriers or challenges for conducting anthropogenic circularity are deriving from the inadequacy of life-cycle insight governance and the emergence of anthropogenic circularity discipline.Material flow analysis and life cycle assessment are the central methodologies to identify the hidden problems.Mineral processing and smelting,as well as end-of-life management,are indicated as critical priority areas for enhancing anthropogenic circularity.展开更多
Alzheimer's disease,a progressively degenerative neurological disorder,is the most common cause of dementia in the elderly.While its precise etiology remains unclear,researchers have identified diverse pathologica...Alzheimer's disease,a progressively degenerative neurological disorder,is the most common cause of dementia in the elderly.While its precise etiology remains unclear,researchers have identified diverse pathological characteristics and molecular pathways associated with its progression.Advances in scientific research have increasingly highlighted the crucial role of non-coding RNAs in the progression of Alzheimer's disease.These non-coding RNAs regulate several biological processes critical to the advancement of the disease,offering promising potential as therapeutic targets and diagnostic biomarkers.Therefore,this review aims to investigate the underlying mechanisms of Alzheimer's disease onset,with a particular focus on microRNAs,long non-coding RNAs,and circular RNAs associated with the disease.The review elucidates the potential pathogenic processes of Alzheimer's disease and provides a detailed description of the synthesis mechanisms of the three aforementioned non-coding RNAs.It comprehensively summarizes the various non-coding RNAs that have been identified to play key regulatory roles in Alzheimer's disease,as well as how these noncoding RNAs influence the disease's progression by regulating gene expression and protein functions.For example,miR-9 targets the UBE4B gene,promoting autophagy-mediated degradation of Tau protein,thereby reducing Tau accumulation and delaying Alzheimer's disease progression.Conversely,the long non-coding RNA BACE1-AS stabilizes BACE1 mRNA,promoting the generation of amyloid-βand accelerating Alzheimer's disease development.Additionally,circular RNAs play significant roles in regulating neuroinflammatory responses.By integrating insights from these regulatory mechanisms,there is potential to discover new therapeutic targets and potential biomarkers for early detection and management of Alzheimer's disease.This review aims to enhance the understanding of the relationship between Alzheimer's disease and non-coding RNAs,potentially paving the way for early detection and novel treatment strategies.展开更多
Sphericity,a measure of how much a particle’s shape deviates from spherical,is useful as a shape factorwhen characterizing particulate materials.However,particle surface areas,required when determiningthe sphericity,...Sphericity,a measure of how much a particle’s shape deviates from spherical,is useful as a shape factorwhen characterizing particulate materials.However,particle surface areas,required when determiningthe sphericity,are very difficult to measure.As a result,the circularity,derivable from microscopic views,is often measured instead and assumed to be equal to the sphericity.This paper shows that the twoquantities are generally not equal for simple non-spherical shapes and provides advice on improving theestimation of sphericity from circularity.展开更多
Graphite,encompassing both natural graphite and synthetic graphite,and graphene,have been extensively utilized and investigated as anode materials and additives in lithium-ion batteries(LIBs).In the pursuit of carbon ...Graphite,encompassing both natural graphite and synthetic graphite,and graphene,have been extensively utilized and investigated as anode materials and additives in lithium-ion batteries(LIBs).In the pursuit of carbon neutrality,LIBs are expected to play a pivotal role in reducing CO_(2)emissions by decreasing reliance on fossil fuels and enabling the integration of renewable energy sources.Owing to their technological maturity and exceptional electrochemical performance,the global production of graphite and graphene for LIBs is projected to continue expanding.Over the past decades,numerous researchers have concentrated on reducing the material and energy input whilst optimising the electrochemical performance of graphite and graphene,through novel synthesis methods and various modifications at the laboratory scale.This review provides a comprehensive examination of the manufacturing methods,environmental impact,research progress,and challenges associated with graphite and graphene in LIBs from an industrial perspective,with a particular focus on the carbon footprint of production processes.Additionally,it considers emerging challenges and future development directions of graphite and graphene,offering significant insights for ongoing and future research in the field of green LIBs.展开更多
Brazil maintains a leading position in agricultural exports and stands as the world's foremost producer and user of bioinputs in agriculture.These bioinputs generate annual savings of billions of dollars that woul...Brazil maintains a leading position in agricultural exports and stands as the world's foremost producer and user of bioinputs in agriculture.These bioinputs generate annual savings of billions of dollars that would otherwise be allocated to chemical fertilizers and pesticides.The nation's regulatory framework enables bioinput agriculture and serves as a model for countries transitioning toward regenerative agriculture.Brazilian legislation categorizes bioinputs into:1)biofertilizers(extracts);2)biostimulants(plant growth-promoting and biocontrol agents);and 3)inoculants(active ingredient comprises one or more living microorganisms).The inoculation of soybeans with Bradyrhizobium strains provides approximately 90%of the nitrogen accumulated by this crop.Brazil has registered over six hundred inoculants,with at least 60%specifically designated for soybean cultivation.The annual sales of inoculants in Brazil reach approximately 120 million doses.Although beans(Phaseolus vulgaris and Vigna unguiculata)represent an essential food crop in Brazil's staple diet and benefit from inoculation,inoculant supply remains insufficient.Regarding biocontrol,soy,corn,sugarcane,and coffee rank among the most protected crops,employing biocontrol agents against bacteria,fungi,nematodes,and insects.Bacillus,Pseudomonas,Streptomyces,Rhizobium,Azotobacter,and Paenibacillus strains were predominantly cited in the 5,000+bioproduct patents filed between 2022 and 2024.Among fungal genera,Trichoderma,and Penicillium received the most citations.EMBRAPA's biobanks maintain over 10,000 strains of bacteria,fungi,and viruses for biocontrol,and 14,000 strains of nutrient-fixing and plant-growth promoters.Production challenges include quality control,particularly as on-farm production of inoculants becomes prevalent on larger farms,alongside product availability and supply limitations.Brazilian farmers maintain global competitiveness partly through reduced chemical fertilizer and pesticide costs enabled by bioinput usage.As components of regenerative agriculture,bioinputs enhance soil quality,decrease carbon footprints,and support Sustainable Development Goals.Brazil's leadership in microbial bioinput utilization stems from its extensive agricultural sector,rich microbial biodiversity,and progressive regulatory framework.展开更多
The recovery of precious metals(PMs)from secondary resources is critical for addressing global supply-chain vulnerabilities and sustainable resource utilization.This review systematically examines the transformative p...The recovery of precious metals(PMs)from secondary resources is critical for addressing global supply-chain vulnerabilities and sustainable resource utilization.This review systematically examines the transformative potential of metal-organic frameworks(MOFs)as next-generation adsorbents for PM recovery,focusing on their synthesis,functionalization,and multiscale adsorption mechanisms.We critically analyze conventional pyrometallurgical and hydrometallurgical methods and highlight their limitations in terms of selectivity,energy consumption,and secondary pollution.In contrast,MOFs offer tunable porosity,abundant active sites,and tunable surface chemistry,enabling efficient PM capture via synergistic physical and chemical adsorption.Advanced modification techniques,including direct synthesis and post-synthetic modification,are reviewed to propose strategies for enhancing the adsorption kinetics and selectivity for Au,Ag,Pt,and Pd.Key structure-property relationships are established through multiscale characterization and thermodynamic models,revealing the critical roles of hierarchical porosity,soft donor atoms,and framework stability.Industrial challenges,such as aqueous stability and scalability,are addressed via Zr-O bond strengthening,hydrophobic functionalization,and support immobilization.This study consolidates the experimental and theoretical advances in MOF-based PM recovery and provides a roadmap for translating laboratory innovations into practical applications within the circular-economy framework.展开更多
Stroke-induced alterations in cerebral blood flow trigger neurovascular remodeling,as manifested by the blood-brain barrier dysfunction and subs equent neurovascular repair activities such as angiogenesis.This process...Stroke-induced alterations in cerebral blood flow trigger neurovascular remodeling,as manifested by the blood-brain barrier dysfunction and subs equent neurovascular repair activities such as angiogenesis.This process involves neurovascular communication that facilitates the transport of mediators among cerebrovascular endothelial cells,pericytes,glial cells,and neurons,thereby transmitting signals from donor to recipient cells to elicit a collaborative response.展开更多
Owing to their intricate molecular frameworks and copious chiral centers,the structural identification and configurational assignment of natural products are challenging tasks.Comprehensive spectral data analysis is c...Owing to their intricate molecular frameworks and copious chiral centers,the structural identification and configurational assignment of natural products are challenging tasks.Comprehensive spectral data analysis is crucial for the confirmation of absolute configurations.Ignoring critical parameters will lead to false structure,which may confuse the total synthesis and drug development.Herein,the configurations of seven heterogeneous Pallavicinia diterpenoids(PDs) isolated from Pallavicinia liverworts are revised using a combination of single-crystal X-ray diffraction and electronic circular dichroism(ECD) calculations.Meanwhile,identification of five unprecedented PD heterodimers PD-dimers A-E(18-22) along with eleven previously undescribed PDs(5-9,13-17,23) obtained by the reinvestigation of the Chinese liverwort Pallavicinia subciliata have resulted in corrections and support the revised conclusions.展开更多
This paper aims to contribute to the development of spatial criteria for adaptive capacity,which is identified as one important factor for the transition towards more circular housing design.The paper focuses on the k...This paper aims to contribute to the development of spatial criteria for adaptive capacity,which is identified as one important factor for the transition towards more circular housing design.The paper focuses on the kitchen,as an important function of the home which is connected to large resource flows and is exposed to frequent renovations and replacements.This paper identifies spatial characteristics of the kitchen and evaluates their potential to accommodate circular solutions focusing on adaptive capacity.As a first step,previous literature on the spatial characteristics of kitchens and indicators that support adaptability is reviewed.These are then used to develop an analytical framework to assess the adaptive capacity and circularity potential of 3624 kitchens in contemporary Swedish apartments.A qualitative approach in combination with quantitative methods is employed to analyse the selected sample.The main contributions of this paper include its spatial analytical framework,its descriptive presentation of contemporary kitchen and apartment designs,and its adaptive capacity assessment of the studied kitchens.The results point out that although the overcapacity of the floor area of kitchens and apartments can have significance for adaptability,it is not the only determinative spatial characteristics.The windows’location and distribution,the number of door openings and traffic zones,the shafts’location and accessibility from multiple rooms,the room typology and the kitchen typology can improve the adaptive capacity and circularity potential of kitchens and dwellings.The findings show that in contemporary floorplans advantageous design solutions connected to the identified spatial characteristics are not applied in a systematic way.Further research is necessary to define the exact measures of the individual spatial characteristics and their combined application in multiresidential floorplan design.展开更多
文摘Circulose,a global leader in recycled pulp production,hasreached a strategic partnership agreement with Tangshan SanyouChemical Fiber,a front-runner in the cellulose fiber industry.Thiscollaboration marks a significant milestone in the commercializa-tion and scaling of CIRCULOSER,whle also propelling TangshanSanyou's brand toward greater international recognition.
基金supported by the National Defense Basic Scientific Research Program of China(Grant No.JCKY2019427D002).
文摘Owing to eccentricity and inclination, circularity of a cylindrical workpiece cannot be measured precisely by a circularity measuring machine when the workpiece has a small dimension(diameter ≤ 3 mm). In this paper, with the aim of solving this problem, circularity metrology of a small cylindrical workpiece using a segmenting scanning method is analyzed. The cross-sectional circle of the cylinder is segmented into several equivalent arcs for measurement by a two-dimensional coordinate measuring machine(profilometer). The circularity contour is obtained by stitching together arc contours obtained by data processing of the coordinates. Different segmenting patterns for coordinate scanning are considered. Measurement results are presented for three segmentation patterns, with 8, 10, and 12 equal segments, respectively.These results are evaluated in terms of the matching coefficient between neighboring arc contours on circumferential stitching, the Euclidean distance between neighboring arc contours on radial stitching, and the curvature of the arcs. From these evaluations, it is found that as the number of segments is increased, the matching coefficient increases from 0.14 to 0.50, the Euclidean distance decreases from 32 nm to 26 nm,and the curvature becomes close to the standard value.
基金the financial support from the National Natural Science Foundation of China (U22B20148,22208143,and 22278204)the International Science and Technology Cooperation Project of the Innovative Supporting Plan from the Jiangsu Provincial Department of Science and Technology (BZ2022040)+1 种基金the State Key Laboratory of Materials-Oriented Chemical Engineering (ZK202101,SKL-MCE-24A09,and the Open Project SKL-MCE-23B)support from the China National Petroleum Corporation。
文摘Excessive fossil fuel use has increased carbon dioxide(CO_(2)) emissions,driving climate change and ocean acidification.This review evaluates the potential of higher alcohols as fuels for carbon circularity,comparing their properties,energy efficiency,and technology readiness with hydrogen,methane,and methanol.Higher alcohols,produced via CO_(2) hydrogenation,exhibit advantages such as liquid-phase storage,higher energy density,and safer handling.Additionally,their clean combustion produces fewer pollutants like CO and NO_(x).However,CO_(2) hydrogenation to higher alcohols faces challenges,including high energy demands,kinetic barriers,and immature production technologies,resulting in lower energy efficiency compared to H_(2),methane,and methanol.Higher alcohols,with their superior energy density and safety,hold promise as sustainable fuels,particularly when integrated with CO_(2) capture technologies.However,improvements in catalyst performance,process integration,and production scalability are critical for their widespread adoption.
文摘Background: The shape of the capitellum has been traditionally described in anatomy books as part of a sphere. Alteration in the capitellar morphology following pathologies such as fractures, osteochondrosis, and degenerative arthritis has been associated with less optimum functional results. Aim: To define the relationship between the sphericity of the capitellar morphology as measured on trauma series plain radiographs and the elbow range of motion. Methods: 40 patients were included in the study. All patients recruited from the upper limb clinics presented with non-elbow joint-related complaints. The elbow range of motion was measured using a standardized technique. Digital anteroposterior and lateral radiographs of patients’ elbows were used to measure capitellar circularity using the ImageJ processing program and circularity calculation equation. Correlation analyses were conducted between the degree of capitellar sphericity and elbow range of motion. Results: The results of measurements from the anteroposterior radiographs showed a positive correlation between increased circularity and an increase in the range of flexion, pronation, and supination. The range of extension decreased with the increased circularity of the capitellum. This trend was repeated with measures of lateral radiographs but was statistically not significant. Conclusion: Native capitellar circularity has an impact on the elbow range of motion. This should be put into consideration when dealing with pathologies that affect capitellar morphology.
基金supported by the National Defense Basic Scientific Research Program of China(Grant numbers JCKY2019427D002)
文摘To reduce the stitching error of circularity measurement of small cylindrical workpieces(Diameter less than 3 mm)by the segmenting-stitching method,arc contour extraction is analyzed in this paper.The coordinates of cross-sectional circle of a small cylindrical part are segmented into several equal arcs to be obtained by a two-dimensional coordinate measuring machine.The circularity contour of the small cylindrical part can be formed by stitching a series of arc contours which are calculated by the obtained arc coordinate data.Due to the different measuring pressure angles of different measuring positions,the accuracy of obtained arc coordinate points is different.The bigger the pressure angle is,the accurate the obtained arc coordinate data are.The experiments show that the accuracy of two ends of the arc data is not as good as the central part.Therefore,the two ends of the obtained arc data are appropriately to be cut off,namely,only the central part of the arc data are extracted to be used for the stitching.As a result,the mean value of the matching coefficient is enhanced by 12%,the deviation between the overlap part of the neighbouring arc contour is reduced by 26%,and the average curvature of the arc contours is improved with the extraction method.Thus,the accuracy of the stitched circularity contour can be improved by this extraction procedure in the segmenting-stitching method for the circularity measurement of the small cylindrical parts.
基金supported by the National Defense Basic Scientific Research Program of China(Grant numbers JCKY2019427D002).
文摘To address the alignment and measuring force problem in the segmenting-stitching technique for the circularity metrology of small cylindrical workpieces(diameter less than 1.5 mm and length less than 10 mm),a magnet combination jig method is proposed.A small round magnet is attached between the round magnetic jig and small cylinder,and the other end of the small cylindrical workpiece is attached to some cylindrical magnets.Thus,the smaller cylinder can be put in the V-groove and measured successfully with the magnet combination.For verifying the advantage of the magnet combination jig,four measurement quality evaluations are proposed:the circumferential deviation of neighbor arc contours,radial deviation of neighbor arc contours,angle of inclination between the V-groove and small cylinder,and curvature of the obtained arc.The results show that the matching coefficient is enhanced by 98%,the Euclidean distance of overlap parts of neighbor arc contours is reduced by 68%,the position error is reduced 27%,and the average curvature of the arc contours is improved.It can be concluded that the measuring quality can be enhanced prominently by this magnet combination method for the segmenting-stitching method.
文摘Dear Editor,The nice manuscript of Reddy et al^([1])regarding comparison of capsulotomy using three different techniques raises some issues which I will discuss in short.Use of newer technologies in phacoemulsification is always of interest to researchers and the authors have compared three techniques which will help us choose the best technique.The study is properly designed and analyzed.I was impressed by detailed analysis and discussion.
文摘Packaging materials are indispensable in modern industries but also significantly contribute to environmental degradation,resource consumption,and waste generation.This systematic review critically assesses the integration of artificial intelligence(AI),life cycle sustainability assessment(LCSA)following ISO 14040 standards,and circularity mapping to overcome sustainability barriers in packaging.The study identifies environmental,economic,and social hotspots across the life cycle stages of packaging materials by examining real-worldcase studies such as Coca-Cola’s adoption of recycled PET bottles andUnilever’s commitment to 100% recyclable plastic.AI technologies highlight transformative tools for optimising resource allocation,enhancing waste management,and supporting predictive maintenance in packaging systems.To maximise their impact,circular economy(CE)strategies,including material substitution,reusable packaging,and recycling,are discussed with AI-driven approaches.Policy frameworks like mandatory life cycle reporting and AI-focused capacity-building initiatives drive systemic change.The packaging industry achieves significant sustainability improvements by combining LCSA,CE principles,and AI while fostering economic benefits and social equity.This paper provides a comprehensive foundation for future research and practical applications to transform the packaging sector into a more sustainable and circular system.This review is the first to integrate LCSA,circular economy mapping,and AI applications in sustainable packaging.It highlights practical strategies and identifies research gaps to guide academia,industry,and policymakers toward scalable and intelligent sustainability solutions.Moreover,the review bridges methodological rigour with practical implementation by aligning digital intelligence with material sustainability frameworks,thus forming a multidisciplinary blueprint for a circular future in packaging.
文摘This study examines consumer resistance to the reuse value of the UK second-hand school uniform market,drawing on eco-philosophy and circular economy frameworks.Specifically,it examines how environmental knowledge,the 3R principle(reuse,reduce,recycle),cost saving,and perceived social norms shape attitudes toward reusage.A Google survey of parents,students,and community members provided quantitative data,which were used to connect three eco-philosophy frameworks and address gaps in the current understanding.This article examines the issue through three eco-philosophy frameworks,highlighting the need for stronger policies that promote the adoption of second-hand school uniforms.Further findings from case studies highlight that decision-making motivation,social norms,and incentives are central to participation.Overall,the study confirms that ecological ethics,school culture,and behavioral change collectively inform policies and environmental benefits of lowcarbon lifestyles,enhancing sustainable uniform reuse in the UK.
基金supported by the National Natural Sciences Foundation of China(No.92062111)the National Key R&D Program of China(No.2019YFC1908501).
文摘Resource depletion and environmental degradation have fueled a burgeoning discipline of anthropogenic circularity since the 2010s.It generally consists of waste reuse,remanufacturing,recycling,and recovery.Circular economy and“zero-waste”cities are sweeping the globe in their current practices to address the world’s grand concerns linked to resources,the environment,and industry.Meanwhile,metal criticality and carbon neutrality,which have become increasingly popular in recent years,denote the material's feature and state,respectively.The goal of this article is to determine how circularity,criticality,and neutrality are related.Upscale anthropogenic circularity has the potential to expand the metal supply and,as a result,reduce metal criticality.China barely accomplished 15%of its potential emission reduction by recycling iron,copper,and aluminum.Anthropogenic circularity has a lot of room to achieve a win-win objective,which is to reduce metal criticality while also achieving carbon neutrality in a near closed-loop cycle.Major barriers or challenges for conducting anthropogenic circularity are deriving from the inadequacy of life-cycle insight governance and the emergence of anthropogenic circularity discipline.Material flow analysis and life cycle assessment are the central methodologies to identify the hidden problems.Mineral processing and smelting,as well as end-of-life management,are indicated as critical priority areas for enhancing anthropogenic circularity.
文摘Alzheimer's disease,a progressively degenerative neurological disorder,is the most common cause of dementia in the elderly.While its precise etiology remains unclear,researchers have identified diverse pathological characteristics and molecular pathways associated with its progression.Advances in scientific research have increasingly highlighted the crucial role of non-coding RNAs in the progression of Alzheimer's disease.These non-coding RNAs regulate several biological processes critical to the advancement of the disease,offering promising potential as therapeutic targets and diagnostic biomarkers.Therefore,this review aims to investigate the underlying mechanisms of Alzheimer's disease onset,with a particular focus on microRNAs,long non-coding RNAs,and circular RNAs associated with the disease.The review elucidates the potential pathogenic processes of Alzheimer's disease and provides a detailed description of the synthesis mechanisms of the three aforementioned non-coding RNAs.It comprehensively summarizes the various non-coding RNAs that have been identified to play key regulatory roles in Alzheimer's disease,as well as how these noncoding RNAs influence the disease's progression by regulating gene expression and protein functions.For example,miR-9 targets the UBE4B gene,promoting autophagy-mediated degradation of Tau protein,thereby reducing Tau accumulation and delaying Alzheimer's disease progression.Conversely,the long non-coding RNA BACE1-AS stabilizes BACE1 mRNA,promoting the generation of amyloid-βand accelerating Alzheimer's disease development.Additionally,circular RNAs play significant roles in regulating neuroinflammatory responses.By integrating insights from these regulatory mechanisms,there is potential to discover new therapeutic targets and potential biomarkers for early detection and management of Alzheimer's disease.This review aims to enhance the understanding of the relationship between Alzheimer's disease and non-coding RNAs,potentially paving the way for early detection and novel treatment strategies.
基金The authors acknowledge the financial support of the Natural Science and Engineering Research Council of Canada(NSERC)via their CREATE and Discovery Grant programs.
文摘Sphericity,a measure of how much a particle’s shape deviates from spherical,is useful as a shape factorwhen characterizing particulate materials.However,particle surface areas,required when determiningthe sphericity,are very difficult to measure.As a result,the circularity,derivable from microscopic views,is often measured instead and assumed to be equal to the sphericity.This paper shows that the twoquantities are generally not equal for simple non-spherical shapes and provides advice on improving theestimation of sphericity from circularity.
基金supported by European Union's Horizon Europe,UK Research and Innovation(UKRI).
文摘Graphite,encompassing both natural graphite and synthetic graphite,and graphene,have been extensively utilized and investigated as anode materials and additives in lithium-ion batteries(LIBs).In the pursuit of carbon neutrality,LIBs are expected to play a pivotal role in reducing CO_(2)emissions by decreasing reliance on fossil fuels and enabling the integration of renewable energy sources.Owing to their technological maturity and exceptional electrochemical performance,the global production of graphite and graphene for LIBs is projected to continue expanding.Over the past decades,numerous researchers have concentrated on reducing the material and energy input whilst optimising the electrochemical performance of graphite and graphene,through novel synthesis methods and various modifications at the laboratory scale.This review provides a comprehensive examination of the manufacturing methods,environmental impact,research progress,and challenges associated with graphite and graphene in LIBs from an industrial perspective,with a particular focus on the carbon footprint of production processes.Additionally,it considers emerging challenges and future development directions of graphite and graphene,offering significant insights for ongoing and future research in the field of green LIBs.
基金funded in part by the Postgraduate Program of the Paulo de Góes Institute of Microbiology,Federal University of Rio de Janeiro(UFRJ),through the coordination of Higher Education Personnel Improvement(CAPES)(001),Brazilthe National Council for Scientific and Technological Development of Brazil(MCTI-CNPq)(309461/2019-7)+3 种基金the Rio de Janeiro State Research Support Foundation(FAPERJ),E26/200428/2023,Brazilthe support of Embrapa Agrobiology,the State Secretariat for Economic Development,Industry,Trade,and Services(SEDEICS),Brazilthe National Association for the Promotion and Innovation of the Biological Industry(ANPII-BIO)the CropLife biological products,and the Brazilian National Institute of Industrial Property(INPI)。
文摘Brazil maintains a leading position in agricultural exports and stands as the world's foremost producer and user of bioinputs in agriculture.These bioinputs generate annual savings of billions of dollars that would otherwise be allocated to chemical fertilizers and pesticides.The nation's regulatory framework enables bioinput agriculture and serves as a model for countries transitioning toward regenerative agriculture.Brazilian legislation categorizes bioinputs into:1)biofertilizers(extracts);2)biostimulants(plant growth-promoting and biocontrol agents);and 3)inoculants(active ingredient comprises one or more living microorganisms).The inoculation of soybeans with Bradyrhizobium strains provides approximately 90%of the nitrogen accumulated by this crop.Brazil has registered over six hundred inoculants,with at least 60%specifically designated for soybean cultivation.The annual sales of inoculants in Brazil reach approximately 120 million doses.Although beans(Phaseolus vulgaris and Vigna unguiculata)represent an essential food crop in Brazil's staple diet and benefit from inoculation,inoculant supply remains insufficient.Regarding biocontrol,soy,corn,sugarcane,and coffee rank among the most protected crops,employing biocontrol agents against bacteria,fungi,nematodes,and insects.Bacillus,Pseudomonas,Streptomyces,Rhizobium,Azotobacter,and Paenibacillus strains were predominantly cited in the 5,000+bioproduct patents filed between 2022 and 2024.Among fungal genera,Trichoderma,and Penicillium received the most citations.EMBRAPA's biobanks maintain over 10,000 strains of bacteria,fungi,and viruses for biocontrol,and 14,000 strains of nutrient-fixing and plant-growth promoters.Production challenges include quality control,particularly as on-farm production of inoculants becomes prevalent on larger farms,alongside product availability and supply limitations.Brazilian farmers maintain global competitiveness partly through reduced chemical fertilizer and pesticide costs enabled by bioinput usage.As components of regenerative agriculture,bioinputs enhance soil quality,decrease carbon footprints,and support Sustainable Development Goals.Brazil's leadership in microbial bioinput utilization stems from its extensive agricultural sector,rich microbial biodiversity,and progressive regulatory framework.
基金supported by the National Natural Science Foundation of China(No.52304329)the Yunnan Fundamental Research Projects(No.202201BE070001-003),Guo Lin would like to acknowledge Xing Dian talent support program of Yunnan Province.
文摘The recovery of precious metals(PMs)from secondary resources is critical for addressing global supply-chain vulnerabilities and sustainable resource utilization.This review systematically examines the transformative potential of metal-organic frameworks(MOFs)as next-generation adsorbents for PM recovery,focusing on their synthesis,functionalization,and multiscale adsorption mechanisms.We critically analyze conventional pyrometallurgical and hydrometallurgical methods and highlight their limitations in terms of selectivity,energy consumption,and secondary pollution.In contrast,MOFs offer tunable porosity,abundant active sites,and tunable surface chemistry,enabling efficient PM capture via synergistic physical and chemical adsorption.Advanced modification techniques,including direct synthesis and post-synthetic modification,are reviewed to propose strategies for enhancing the adsorption kinetics and selectivity for Au,Ag,Pt,and Pd.Key structure-property relationships are established through multiscale characterization and thermodynamic models,revealing the critical roles of hierarchical porosity,soft donor atoms,and framework stability.Industrial challenges,such as aqueous stability and scalability,are addressed via Zr-O bond strengthening,hydrophobic functionalization,and support immobilization.This study consolidates the experimental and theoretical advances in MOF-based PM recovery and provides a roadmap for translating laboratory innovations into practical applications within the circular-economy framework.
基金supported by the National Natural Science Foundation of China,Nos.82171344(to ZY),82471313(to CKT)the Guangdong Basic and Applied Basic Research Foundation,China,Nos.2023B1515120035,2024A1515012035(to CKT)The Science and Technology Projects in Guangzhou Nos.2025A03J4169(to ZY)。
文摘Stroke-induced alterations in cerebral blood flow trigger neurovascular remodeling,as manifested by the blood-brain barrier dysfunction and subs equent neurovascular repair activities such as angiogenesis.This process involves neurovascular communication that facilitates the transport of mediators among cerebrovascular endothelial cells,pericytes,glial cells,and neurons,thereby transmitting signals from donor to recipient cells to elicit a collaborative response.
基金supported by the National Natural Science Foundation of China (Nos.82293682,82293684,and 82173703)。
文摘Owing to their intricate molecular frameworks and copious chiral centers,the structural identification and configurational assignment of natural products are challenging tasks.Comprehensive spectral data analysis is crucial for the confirmation of absolute configurations.Ignoring critical parameters will lead to false structure,which may confuse the total synthesis and drug development.Herein,the configurations of seven heterogeneous Pallavicinia diterpenoids(PDs) isolated from Pallavicinia liverworts are revised using a combination of single-crystal X-ray diffraction and electronic circular dichroism(ECD) calculations.Meanwhile,identification of five unprecedented PD heterodimers PD-dimers A-E(18-22) along with eleven previously undescribed PDs(5-9,13-17,23) obtained by the reinvestigation of the Chinese liverwort Pallavicinia subciliata have resulted in corrections and support the revised conclusions.
基金The final revision of this paper was Garried out within the Gircular Kitchen 2.0 project founded by Vastra Gotalandsregionen(project number:20232029)and Formas-A Swedish Research Council for Sustainable Development(project number:202102454).
文摘This paper aims to contribute to the development of spatial criteria for adaptive capacity,which is identified as one important factor for the transition towards more circular housing design.The paper focuses on the kitchen,as an important function of the home which is connected to large resource flows and is exposed to frequent renovations and replacements.This paper identifies spatial characteristics of the kitchen and evaluates their potential to accommodate circular solutions focusing on adaptive capacity.As a first step,previous literature on the spatial characteristics of kitchens and indicators that support adaptability is reviewed.These are then used to develop an analytical framework to assess the adaptive capacity and circularity potential of 3624 kitchens in contemporary Swedish apartments.A qualitative approach in combination with quantitative methods is employed to analyse the selected sample.The main contributions of this paper include its spatial analytical framework,its descriptive presentation of contemporary kitchen and apartment designs,and its adaptive capacity assessment of the studied kitchens.The results point out that although the overcapacity of the floor area of kitchens and apartments can have significance for adaptability,it is not the only determinative spatial characteristics.The windows’location and distribution,the number of door openings and traffic zones,the shafts’location and accessibility from multiple rooms,the room typology and the kitchen typology can improve the adaptive capacity and circularity potential of kitchens and dwellings.The findings show that in contemporary floorplans advantageous design solutions connected to the identified spatial characteristics are not applied in a systematic way.Further research is necessary to define the exact measures of the individual spatial characteristics and their combined application in multiresidential floorplan design.
