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The Innovation | Virtual Collection—Stop COVID-19 (v2) 新冠专辑2.0

Editorial TheInnovation创新 2022-03-15

Figure 1 Summary of Publishing (2020—2022)

图1 出版概览(2020—2022年)



Introduction: The Innovation has published 158 articles from 2020 to 2021 (Figure 1). The authors come from 29 countries and articles belong to 9 categories (Figure 2), which have been cited by researchers from 78 countries (Source: Web of Science). The Innovation is a multidisciplinary journal covering all natural science fields. To facilitate readers to refer to articles in a specific field, Editorial Team integrates the contents from different Issues to make this Virtual Collection. The Innovation will change to bimonthly publishing in 2022 (Jan, Mar, May, Jul, Sep, Nov).


引言: 从2020到2021,The Innovation出版两卷七期共158篇文章(图1),作者来自29个国家。这些文章分布在9个栏目(图2),已被78个国家作者引用(数据源: Web of Science)。The Innovation是综合性英文期刊,发文内容涵盖所有自然科学领域。为方便读者查看出版的某领域文章,编辑部整合这两年不同刊次的相关内容,陆续推送Virtual Collection(虚拟专辑)……在本刊发表的文章,同时在微信公众号上进行“科普化解读”——尽可能让更多人懂得文章的主旨和亮点:传播科学知识,传承科学素养。自2022年起,The Innovation改为双月刊(出版月份:1、3、5、7、9、11)。

Figure 2 Categories of Publishing (2020—2021)

图2 文章全貌(2020—2021年)




 About Stop COVID-19 (v2) 

新冠专辑2.0

SARS-CoV-2: It infected > 250 million people and killed > 5.12 million people worldwide, casting a lingering shadow on human society. With the joint efforts of scientists and medical experts, various vaccines and treatment schemes have been launched one after another... In this global pandemic, we firmly believe that only scientific and technological development can break through the darkness. Under the sustainable development goals of United Nations, we hope that the whole world will become better and better through the humanity efforts together.

新冠病毒:它已造成全球2.5亿人感染,512万人死亡,给人类社会投下挥之不去的阴影。在科学家和医学家等的共同努力下,各类疫苗和治疗方案陆续面世……在这场“战疫”中,我们坚信唯有科学的发展,技术的创新,才是冲破黑暗的光亮。祈愿这个世界在可持续发展的理念指导下,变得越来越美好。本次虚拟专辑收录与COVID-19相关的Editorial 1篇,Article 4篇,Report 11篇,Commentary 19篇,Review 1篇;共计36篇。



 Section 1

Editorial


Collaboration in the War against Viruses: A Multidisciplinary International Effort


社论:科学“战疫”,合作共赢


► 点击阅读



Section 2 

Articles


Predictive Model and Risk Factors for Case Fatality of COVID-19: A Cohort of 21,392 Cases in Hubei, China


识别新冠患者高死亡风险因素的模型:来自2.1万患者的经验总结

► 点击阅读


Urban Air Pollution May Enhance COVID-19 Case-Fatality and Mortality Rates in the United States


城市空气污染可能增加新冠肺炎病死率和死亡率  

► 点击阅读



Daily CO2 Emission Reduction Indicates the Control of Activities to Contain COVID-19 in China


地理学新方法:中国新冠肺炎防治措施成效评估

► 点击阅读



Host-specific asymmetric accumulation of mutation types reveals that the origin of SARS-CoV-2 is consistent with a natural process


新冠病毒源于自然界的科学证据


► 点击阅读



 Section 3

Reports


Epidemiological and Clinical Characteristics of COVID-19 in Adolescents and Young Adults


青少年新冠患者临床特征


► 点击阅读


Predicting Illness Severity and Short-term Outcomes of COVID-19: A Retrospective Cohort Study in China


及早识别COVID-19重症高风险个体


► 点击阅读


Modeling the Prevalence of Asymptomatic COVID-19 Infections in the Chinese Mainland


评估中国新冠肺炎“流行后期”的无症状感染率

► 点击阅读


Early Research on COVID-19: A Bibliometric Analysis


新冠早期文献计量分析:“科学战疫”,研究先行

► 点击阅读


Laboratory Diagnosis and Monitoring the Viral Shedding of SARS-CoV-2 Infection


COVID-19患者不同呼吸道样本核酸检测阳性率的比较

► 点击阅读


Contribution of Temperature Increase to Restrain the Transmission of COVID-19


环境温度对新冠肺炎传播速率的影响


► 点击阅读


Structural basis of SARS-CoV-2 polymerase inhibition by Favipiravir


法匹拉韦抑制新冠病毒复制的机制


► 点击阅读


Phylogenomic tracing of asymptomatic transmission in a COVID-19 outbreak


直接病原学证据:无症状患者可引起COVID-19传播

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Assessing the extent of community spread caused by mink-derived SARS-CoV-2 variants


SARS-CoV-2的水貂突变体是否可以“人传人”?

► 点击阅读


Ambient air pollution and low temperature associated with case fatality of COVID-19: A nationwide retrospective cohort study in China


空气质量和环境温度对新冠肺炎患者有何影响?

► 点击阅读


A recombinant receptor-binding domain in trimeric form generates protective immunity against SARS-CoV-2 infection in nonhuman primates


一种潜在的新冠病毒通用疫苗


► 点击阅读



 Section 4

Review


Genomic variation, origin tracing and vaccine development of SARS-CoV-2: A systematic review


新冠病毒高传染性原因及疫苗最新进展

► 点击阅读



 Section 5

Commentaries


What is Required to Prevent a Second Major Outbreak of SARS-CoV-2 upon Lifting Quarantine of Wuhan City, China?


武汉解封后,如何预防第二次SARS-CoV-2大暴发?

► 点击阅读


Differentiating COVID-19 Response Strategies


全球不同的“战疫”策略


► 点击阅读


New Virus, New Challenge


新病毒,新挑战


► 点击阅读


Achieving Positive Mental Health and Wellbeing on the COVID-19 Frontline


谁在守护武汉新冠一线医务工作者的精神健康?

► 点击阅读


Patients' Attitudes to Unproven Therapies in Treating Covid-19 Merit Evaluation


面对试验用药,新冠患者会如何选择?


► 点击阅读


Culture versus Policy: More Global Collaboration to Effectively Combat COVID-19


寻求文化和政策共识,共同战疫


► 点击阅读


Modeling the COVID-19 Outbreak in China through Multi-source Information Fusion


基于多源信息融合的新冠暴发建模


► 点击阅读


Accelerate the Promotion of Mobile Payments during the COVID-19 Epidemic


新冠期间应加速推广移动支付


► 点击阅读


Modelling the epidemic trend of the 2019 novel coronavirus outbreak in China


保持社交距离在中国防控新冠疫情中的效果评估 

► 点击阅读


Characteristics analysis and implications on the COVID-19 reopening of Victoria, Australia


澳大利亚维州解封:如何避免再次暴发

► 点击阅读


Recovery of Four COVID-19 Patients via Ozonated Autohemotherapy


自体血三氧疗法治疗COVID-19病毒性肺炎—4例病例报告

► 点击阅读


Tackling COVID-19 in Africa: A Focus on Nigeria's Peculiarities and Challenges


非洲应对COVID-19:尼日利亚的特点和挑战

► 点击阅读


Mass testing - an underexplored strategy for COVID-19 control


全民核酸检测:一种亟待探究的新冠控制策略

► 点击阅读


Genetic correlations between COVID-19 and a variety of traits and diseases


哪些疾病和特质与新冠肺炎严重程度相关联?

► 点击阅读


Climate change, environmental factors, and COVID-19: Current evidence and urgent actions 


气候变化、环境因素与COVID-19,我们该如何应对?

► 点击阅读


2019nCoVR—A comprehensive genomic resource for SARS-CoV-2 variant surveillance


新型冠状病毒信息库 (2019nCoVR): 全球范围内有效监测病毒变异

► 点击阅读


Mechanism of action of favipiravir against SARS-CoV-2: Mutagenesis or chain termination?


法匹拉韦抗新冠病毒作用机制:诱导突变还是终结?

► 点击阅读


From Animal to Human: Interspecies Analysis Provides a Novel Way of Ascertaining and Fighting COVID-19


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原文链接:https://www.cell.com/the-innovation/fulltext/S2666-6758(20)30021-7


The sound of host-SARS-CoV-2 molecular interactions


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原文链接:https://www.cell.com/the-innovation/fulltext/S2666-6758(21)00051-5




期刊简介



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The Innovation 是一本由青年科学家与Cell Press于2020年共同创办的综合性英文学术期刊:向科学界展示鼓舞人心的跨学科发现,鼓励研究人员专注于科学的本质和自由探索的初心。作者们来自全球29个国家;每期1/3-1/4通讯作者来自海外;已被78个国家作者引用。目前有189位编委会成员,来自21个国家;50%编委来自海外;包含1位诺贝尔奖获得者,30位各国院士;领域覆盖全部自然科学。The Innovation已被DOAJ,ADS,Scopus,PubMed等数据库收录。


期刊官网1(Owner):

www.the-innovation.org

期刊官网2(Publisher):

www.cell.com/the-innovation/home

期刊投稿(Submission):

www.editorialmanager.com/the-innovation

商务合作(Marketing):

marketing@the-innovation.org



Logo|期刊标识

See the unseen & change the unchanged

创新是一扇门,我们探索未知;  

创新是一道光,我们脑洞大开;  

创新是一本书,我们期待惊喜;  

创新是一个“1”,我们从此走起。



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