| 查看: 2219 | 回复: 3 | |||||
| 当前只显示满足指定条件的回帖,点击这里查看本话题的所有回帖 | |||||
[交流]
求助chem. commum的投稿须知
|
|||||
谁投过chem commum 的文章,能不那能把投稿须知给我传一份,谢谢 |
» 猜你喜欢
生命口会评
已经有4人回复
大龄残疾硕士的一点执念
已经有21人回复
今年E04面上
已经有20人回复
网络举报学术不端成为了男女之间情杀的手段了,真荒唐。。。
已经有3人回复
2026年面上项目中了,2A+B, 会评顺利通过
已经有12人回复
Suzuki偶联中硼酸酯原料掉下的硼酸酯是否可以自身偶联,生成B2Pin2杂质
已经有3人回复
刑法学论文投稿求助
已经有5人回复
Journal of Environmental Chemical Engineering
已经有3人回复
最后一年,祈求好运
已经有3人回复
风电环氧领域
已经有3人回复
» 本主题相关价值贴推荐,对您同样有帮助:
Chem Mater 投稿求助!!
已经有16人回复
有投过RUSS J COOR CHEM+(俄国配位化学)的吗,求助呀!
已经有6人回复
求助Angew Chem投稿状态
已经有7人回复
chemcomm接受后的又一个邮件,不是proof,这怎么回复,求助
已经有5人回复
ChemComm投稿求助
已经有22人回复
《车辆远程管理技术与应用》投稿须知,稿酬丰厚
已经有11人回复
【求助】求建材类核心期刊名称及其投稿须知
已经有7人回复
有谁投过Desalination给我说一下投稿须知
已经有15人回复
求助 the Journal of Chemical Physics的投稿须知
已经有4人回复
Desalination投稿须知
已经有13人回复
【求助】《焊接》、《焊接技术》、《电焊机》的官方网页或者投稿须知
已经有17人回复
谁知道油田化学投稿须知
已经有3人回复
» 抢金币啦!回帖就可以得到:
宝宝起名
+1/473
辽宁惟则专利所2026年招聘公告(沈阳本地、有经验)
+1/173
化学所分子识别实验室公开招聘项目聘用人员
+1/85
香港理工大学 - 管理/交通/优化/运筹/工业工程/物流方向 - 博士生PhD招聘
+3/83
化学所分子识别实验室公开招聘项目聘用人员
+1/81
求助USP <1664> 2026版本 Assessdrproduct
+1/39
上海交通大学化工学院邱惠斌教授课题组招募科研助理、交流生
+1/34
沈阳农业大学招聘微生物酶工程方向博士!!!!!!!!!!!!!
+1/29
985高校北京理工大学珠海校区高效催化与能源转化团队招收推免生,长期有效
+1/28
深圳大学杨楚罗/黄忠衍团队招聘博士后
+1/25
北师大(珠海)环境辐射与健康方向招聘博士后启事
+1/15
《穿越持科研神辅,杀懵外星万舰》第二章 战书如刀诛心魄
+1/6
国家纳米中心招聘项目聘用研究助理
+1/5
重庆大学药学院沈宏城课题组招聘弘深青年教师/博士后
+1/4
圣路易斯华盛顿大学管建均教授课题组招聘博士后(2名)
+1/3
圣路易斯华盛顿大学管建均教授课题组招聘博士后(2名)
+1/3
科研测试平台求助
+1/3
圣路易斯华盛顿大学管建均教授课题组招聘博士后(2名)
+1/2
重庆大学药学院沈宏城课题组招聘有机合成科研助理(27年入学博士名额)
+1/2
应聘机构化学教师,急用
+1/1
paperhunter
荣誉版主 (文学泰斗)
-

专家经验: +14 - SEPI: 1
- 应助: 14603 (教授)
- 贵宾: 11.659
- 金币: 345467
- 帖子: 127554
- 在线: 8880.5小时
- 虫号: 971012
★
猪会飞(金币+1):鼓励回帖交流 2011-01-07 18:11:31
djp005(金币+5): 2011-01-08 00:27:36
djp005(金币+3): 2011-01-12 17:22:00
猪会飞(金币+1):鼓励回帖交流 2011-01-07 18:11:31
djp005(金币+5): 2011-01-08 00:27:36
djp005(金币+3): 2011-01-12 17:22:00
|
Chemical Communications 1.0 Scope and standards Chemical Communications publishes preliminary accounts of original and significant research that will appeal to a wide general readership or be of exceptional interest to the specialist. Following publication of a communication a full paper should be prepared and submitted to an appropriate journal. Acceptance in Chemical Communications does not guarantee subsequent publication in the RSC's journals. Short articles that are detailed enough should be submitted as a complete account to the appropriate RSC journal. 2.0 Article types 2.1 Communications Communications should be brief and may not exceed three pages in the printed form including tables and illustrations. Authors must use the communication template, available from the RSC web site, for preparing their submissions. Lengthy introductions and discussion, extensive data, and excessive experimental details and conjecture should not be included. Figures and tables will only be published if they are essential to understanding the paper. The experimental evidence necessary to support a communication should be supplied for the referees and eventual publication as Electronic Supplementary Information. A note giving the reasons why the work should be published in Chemical Communications should be provided. When preparing the statement the following criteria should be addressed: The significance and novelty as well as the interest to either the wide general readership or exceptional interest to the specialist should be highlighted 2.2 Feature Articles Feature Articles are reviews written by leading scientists within their field and summarise recent work from a personal perspective. They cover many exciting and innovative fields and are of general interest to all chemists. They should not contain original research. Feature articles in Chemical Communications are normally submitted by invitation. However, suggestions from authors are welcome and enquiries should be directed to the Editor. Feature articles should ideally be between 10 and 16 pages in length, although longer articles may be acceptable after consultation with the Editorial Board. They can include photographs and brief biographies (max 100 words) for up to 6 authors. For inclusion in the articles, biographies and photographs must be supplied prior to acceptance. Authors are encouraged to use the article template, available from the RSC web site, for preparing their Feature Article submission. 3.0 Supporting Information Experimental information must be provided to enable other researchers to reproduce accurately the work. The experimental details and the characterisation data should preferably be provided as Electronic Supplementary Information although on occasion it may be appropriate to include some or all of this within the body of the communication. This will depend on the nature of the research being reported. 3.1 Characterisation of new compounds It is the responsibility of authors to provide fully convincing evidence for the homogeneity, purity and identity of all compounds they claim as new. This evidence is required to establish that the properties and constants reported are those of the compound with the new structure claimed. Referees will assess, as a whole, the evidence presented in support of the claims made by the authors. The requirements for characterisation criteria are detailed below. 3.1.1 Organic Compounds Authors are required to provide unequivocal support for the purity and assigned structure of all compounds using a combination of the following characterization techniques: Analytical. Elemental analysis (within ±0.4% of the calculated value) is required to confirm 95% sample purity and corroborate isomeric purity. Authors are also encouraged to provide copies of 1H/13C-NMR spectra and/or GC/HPLC traces, however, if satisfactory elemental analysis cannot be obtained copies of these spectra and/or traces must be provided. For libraries of compounds, HPLC traces should be submitted as proof of purity. The determination of enantiomeric excess of nonracemic, chiral substances should be supported with either GC/HPLC traces with retention times for both enantiomers and separation conditions (i.e. chiral support, solvent and flow rate) or for Mosher Ester/Chiral Shift Reagent analysis, copies of the spectra. Physical: Important physical properties, for example, boiling or melting point, specific rotation, refractive index, etc., including conditions and a comparison to the literature for known compounds should be provided. For crystalline compounds, the method used for recrystallization should also be documented (i.e. solvent etc.). Spectroscopic: Mass spectra and a complete numerical listing of 1H/13C-NMR peaks in support of the assigned structure, including relevant 2D NMR and related experiments (i.e. NOE, etc.) is required. As noted in above, authors are encouraged to provide copies of these spectra. Infra Red spectra that support functional group modifications, including other diagnostic assignments should be included. High-resolution mass spectra are acceptable as proof of the molecular weight provided the purity of the sample has been accurately determined as outlined above. The synthesis of all new compounds must be described in detail. Synthetic procedures must include the specific reagents, products and solvents and must give the amounts (g, mmol, for products: %) for all of them, as well as clearly stating how the percentage yields are calculated. They must include the 1H, 13C and MS data of this specific compound. For multistep synthesis papers: spectra of key compounds and of the final product should be included. For a series of related compounds at least one representative procedure which outlines a specific example that is described in the text or in a table and which is representative for the other cases must be provided. 3.1.2 Polymers For all soluble polymers an estimation of molecular weight must be provided by a suitable method, e.g. size exclusion chromatography, including details of columns, eluents and calibration standards, intrinsic viscosity, MALDI TOF, etc. in addition to full NMR characterization (1H, 13C) as for organic compound characterization-see above. The synthesis of all new compounds must be described in detail. Synthetic procedures must include the specific reagents, products and solvents and must give the amounts (g, mmol, for products: %) for all of them, as well as clearly stating how the percentage yields are calculated. They must also include all the characterisation data for the prepared compound or material. For a series of related compounds at least one representative procedure which outlines a specific example that is described in the text or in a table and which is representative for the other cases must be provided. 3.1.3 Inorganic and Organometallic compounds A new chemical substance (molecule or extended solid) should have a homogeneous composition and structure. New chemical syntheses must unequivocally establish the purity and identity of these materials. Where the compound is molecular, minimum standards have been established. For manuscripts that report new compounds or materials, data must be provided to unequivocally establish the homogeneity, purity and identification of these substances. In general, this should include elemental analyses that agree to within ±0.4% of the calculated values. In cases where elemental analyses cannot be obtained (e.g. for thermally unstable compounds), justification for the omission of this data should be provided. Note that an X-ray crystal structure is not sufficient for the characterization of a new material, since the crystal used in this analysis does not necessarily represent the bulk sample. In rare cases, it may be possible to substitute elemental analyses with high-resolution mass spectrometric molecular weights. This is appropriate, for example, with trivial derivatives of thoroughly characterized substances or routine synthetic intermediates. In all cases, relevant spectroscopic data (NMR, IR, UV-vis, etc.) should be provided in tabulated form or as reproduced spectra. Again, these may be relegated to the Supplementary Information to conserve journal space. However, it should be noted that in general mass spectrometric and spectroscopic data do not constitute proof of purity, and in the absence of elemental analyses additional evidence of purity should be provided (melting points, PXRD data, etc.). Experimental data for new substances should also include synthetic yields, reported in terms of grams or moles, and as a percentage. Where the compound is an extended solid it is important to unequivocally establish the chemical structure and bulk composition. Single crystal diffraction does not determine the bulk structure. Referees will normally look to see evidence of bulk homogeneity. A fully indexed powder diffraction pattern which agrees with single crystal data may be used as evidence of a bulk homogeneous structure and chemical analysis may be used to establish purity and homogeneous composition. The synthesis of all new compounds must be described in detail. Synthetic procedures must include the specific reagents, products and solvents and must give the amounts (g, mmol, for products: %) for all of them, as well as clearly stating how the percentage yields are calculated. They must also include all the characterisation data for the prepared compound or material. For a series of related compounds at least one representative procedure which outlines a specific example that is described in the text or in a table and which is representative for the other cases must be provided. 3.1.4 Nano-sized materials (e.g. quantum dots, nanoparticles, nanotubes, nanowires) For nano-sized materials it is essential that the authors not only provide detailed characterisation on individual objects (see above) but also a comprehensive characterisation of the bulk composition. Characterisation of the bulk of the sample could require determination of the chemical composition and size distribution over large portions of the sample. The synthesis of all new compounds must be described in detail. Synthetic procedures must include the specific reagents, products and solvents and must give the amounts (g, mmol, for products: %) for all of them, as well as clearly stating how the percentage yields are calculated. They must also include all the characterisation data for the prepared compound or material. For a series of related compounds at least one representative procedure which outlines a specific example that is described in the text or in a table and which is representative for the other cases must be provided. 3.1.5 Biomolecules (e.g. enzymes, proteins, DNA/RNA, oligosaccharides, oligonucleotides) Authors should provide rigorous evidence for the identity and purity of the biomolecules described. The techniques that may be employed to substantiate identity include mass spectrometry, LC-MS, sequencing data (for proteins and oligonucleotides), high field 1H or 13C NMR, X-ray crystallography. Purity must be established by one or more of the following: HPLC, gel electrophoresis, capillary electrophoresis, high field 1H or 13C NMR. Sequence verification also needs to be carried out for nucleic acid cases involving molecular biology. For organic synthesis involving DNA, RNA oligonucleotides, their derivatives or mimics, purity must be established using HPLC and mass spectrometry as a minimum. For new derivatives comprising modified monomers, the usual organic chemistry analytical requirements for the novel monomer must be provided (see 3.1.1. Organic Compounds). It is not however necessary to provide this level of characterisation for the oligonucleotide into which the novel monomer is incorporated. 3.2 General It is the responsibility of the author(s) to provide the reviewers with the necessary information to evaluate the merit of the manuscript in terms of its scientific content. Failure to provide the necessary experimental evidence and data may result in the manuscript being withdrawn by the Editor Word模板从http://www.rsc.org/Publishing/Jo ... /Templates/word.asp下载 [ Last edited by paperhunter on 2011-1-7 at 17:43 ] |
3楼2011-01-07 17:41:30
2楼2011-01-07 16:44:21
djp005(金币+2): 2011-01-08 00:26:53
|
http://www.namipan.com/d/Guideli ... 241299e09829d2a0100 投稿须知是中文的,很方便的。 |
4楼2011-01-07 20:28:34











的文章,能不那能把投稿须知给我传一份,谢谢
回复此楼