GetPortalImpactFactorByIdResp(projectId=1, id=3c7f7142, cover=https://img.medsci.cn/images/journal/cover/2021/nML_202109271314025110.jpg, fullname=ADVANCED SYNTHESIS & CATALYSIS, abbr=ADV SYNTH CATAL, pyear=2001, frequence=Semimonthly, articleNumbers=4728, citedSelf2015=8.1, acceptanceRate=null, submissionToAcceptance=null, averageReviewTime=平均2.31月, reviewFee=null, pageFee=null, publishedRatio=2023年中国人文章占该期刊总数量暂无数据 (2022年为100.00%), issn=1615-4150, greenSci=https://www.greensci.net/search?kw=1615-4150, scijournal=https://www.scijournal.org/impact-factor-of-ADV-SYNTH-CATAL.shtml, medsciHotlightString=null, medsciHotlightRealtime=4.346, medsciHotlight=4.879, medsciHotlight5year=6.15845, citescore=0.0, hIndex=155, impactFactor=5.4, orgnization=Wiley-VCH Verlag, orgnizationUrl=http://www.interscience.wiley., country=United Kingdom, countryCn=英国, isOa=0, isOaString=否, sciScie=Science Citation Index|Science Citation Index Expanded|Current Contents - Physical, Chemical & Earth Sciences, bigclassCas=化学 2区[Top], smallclassCas=化学 2 区, website=https://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1615-4169, websiteHits=8593, guideForAuthor=null, guideForAuthorHits=1, submitWebsite=https://mc.manuscriptcentral.com/asc|https://mc.manuscriptcentral.com/asc, submitWebsiteHits=3203, content=While total synthesis reached extraordinary levels of sophistication in the last century the development of practical and efficient methodologies is still in its infancy. The goal of achieving chemical reactions that are economical safe environmentally benign resource- and energy-saving will demand the highest level of scientific creativity insight and understanding in a combined effort by academic and industrial chemists. Advanced Synthesis & Catalysis is designed to stimulate and advance that process by focusing on the development and application of efficient synthetic methodologies and strategies in organic bioorganic pharmaceutical natural product macromolecular and materials chemistry. The targets of synthetic studies can range from natural products and pharmaceuticals to macromolecules and organic materials. While catalytic methods based on metal complexes or enzymes play an ever increasing role in achieving synthetic efficiency all areas of interest to the practical synthetic chemist fall within the purview of Advanced Synthesis & Catalysis including synthesis design reaction techniques separation science and process development. Contributions from industrial and governmental laboratories are highly encouraged. It is the goal of the journal to help initiate a new era of chemical science based on the efforts of synthetic chemists and on interdisciplinary collaboration so that chemistry will make an even greater contribution to the quality of life than it does now. Advanced Synthesis & Catalysis succeeds the "Journal für praktische Chemie" (founded 1828). Advanced Synthesis & Catalysis publishes the following types of articles: Commentaries Reviews Updates Full Papers Communications Reagents & Catalysts Book Reviews Readers Organic organometallic bioorganic pharmaceutical materials and macromolecular chemists in academia and industry engaged in synthesis and in process research and development. Secondary groups: inorganic chemists engaged in catalyst research; chemical engineers and biotechnologists in process research and development., totalCites=25535, brief=ADV SYNTH CATAL杂志化学行业,“<strong><a target="_blank" href="/sci/index.do?smallclass=应用化学" >应用化学</a></strong>”子行业的顶级杂志, articleType=论著为主,其它类型文章约占5-10%, medsciHeat=黑红, medsciComment=ADV SYNTH CATAL在该细分领域可能是一流杂志,可能是创刊时间短或不是热门学科,整体来说,国内学者关注度仍然不够。对于投稿而言,建议多向"&abbr&"投稿,当然期刊也应该加强品牌宣传。, medsciExplanation=MedSci期刊指数是根据中国科研工作者(含医学临床,基础,生物,化学等学科)对SCI杂志的认知度,熟悉程度,以及投稿的量等众多指标综合评定而成。当然,具体的,您还可以结合“<a href='//m.sandwebs.com/sci/submit.do?id=3c7f7142'>投稿经验系统</a>”,进行综合判断,这更是大家的实战经验,值得分享和参考。<br>
注意,上述MedSci期刊指数采用MedSci专利技术,由计算机系统自动计算,并给出建议,存在不准确的可能,仅供您投稿选择杂志时参考。, tags=[ImpactFactorTagDto(id=41253, tagName=有机合成, createdHits=3), ImpactFactorTagDto(id=41475, tagName=化学科学, createdHits=2), ImpactFactorTagDto(id=41187, tagName=有机化学, createdHits=1), ImpactFactorTagDto(id=62389, tagName=金属有机化学, createdHits=1), ImpactFactorTagDto(id=469076, tagName=金属催化, createdHits=1)], citeScoreList=[GetImpactFactorCiteScoreListResponse(year=2016, citescore=5.36), GetImpactFactorCiteScoreListResponse(year=2017, citescore=5.01), GetImpactFactorCiteScoreListResponse(year=2018, citescore=5.2), GetImpactFactorCiteScoreListResponse(year=2019, citescore=9.3), GetImpactFactorCiteScoreListResponse(year=2020, citescore=0.0)], medsciIndexList=[GetImpactFactorMedsciIndexListResponse(year=2020, medsciHotlight=5.102), GetImpactFactorMedsciIndexListResponse(year=2021, medsciHotlight=5.359), GetImpactFactorMedsciIndexListResponse(year=2022, medsciHotlight=4.921), GetImpactFactorMedsciIndexListResponse(year=2023, medsciHotlight=3.909), GetImpactFactorMedsciIndexListResponse(year=2024, medsciHotlight=4.346)], citeScoreGradeList=[GetImpactFactorCiteScoreGradeResponse(smallClass=Chemistry - Organic Chemistry , rank=11/177), GetImpactFactorCiteScoreGradeResponse(smallClass=Chemical Engineering - Catalysis , rank=10/54)], totalJcrAreaList=[], pmcUrl=https://www.ncbi.nlm.nih.gov/nlmcatalog?term=1615-4150[ISSN], pubmedUrl=https://www.ncbi.nlm.nih.gov/pubmed?cmd=search&term=ADVANCED SYNTHESIS & CATALYSIS[ta], article_number=465, article_number_cn=234, earlyWarning=null, linkOutUrl=null, isJournalMember=false, unscrambleContent=null, dayViewCount=false, endexampletyle=暂无数据)