一般的期刊价格都是根据级别以及页码,还有发行的周期这几点因素来进行确定的,大多数的普通刊物发表一篇论文,如果在2000字符以内的价格大概就是800元到1000元左右。如果是核心级别的,其看那么价格就会有一定的增长,大概在1000元到1500元左右。
期刊的类型不同价格也是不一样的,医学期刊价格相对来讲就会更高一些,不管是普通的刊物还是核心级别的刊物都要比其他类型的期刊价格增长很多。期刊论文发表首选壹品优刊0定金代发录用后收费在发表论文的过程当中一定要将自己的字数控制在一定范围内,这样的话才能够节省发表论文的价格,如果字数超出了论文篇幅的要求,那么就要额外的支出版面费用了。
在投稿的时候要选择和自己的论文相符的,同样也可以选择专业的代理机构来帮助自己去完成投稿。 发论文怎么收费标准如下:如果选择花钱发论⽂,这个要根据作者的专业、投稿的期刊等级、论⽂的⽔平、要求的周期等等很多因素确定,因为的作者们来⾃各⾏各业,适合他们的期刊也不⼀样,论⽂字数也不⼀样,所以版⾯费也会有区
普刊肯定是相对便宜的,有的⼀千多也可以发,核⼼期刊就会贵⼀些,⼀两万也很正常,我们常发SCI也不便宜,⼏千美元也有,折合⼈民币也要⼏万,另外这个并不是越贵越好,主要还是看作者的个⼈情况和具体需求。
1:普刊费用低,几百到几千的都有,一般是在800-2000之间。省级刊物的版面费一般为一个版面800元。一个版面也就能刊登2000字符左右,还不算图片、表格之类的。一般的国家级刊物和这个价格差不多。在普刊中还需要注意的就是收录方面,版面数越多价格越贵所以这个问题和字数、等级、收录都有关系。如果低于500的期刊,基本上就是假刊、盗刊等;
一般情况下评职或者毕业论文基本在普刊上发表论文就行。在这里需要特殊说明的就是在评职称的时候如果名额有限竞争比较激烈的话最好是选择核心期刊或者SCI等高级期刊。
2:核心级期刊是公认的难发,那么费用方面比普刊就贵。北大核心期刊、南大核心期刊、cscd核心、科技核心期刊在版面费上,也有差异,少的在一两千,多的五六千。比较难中的核心期刊价格基本在2万~3万或者更高。
3:在SCI、EI目录期刊上发表文章的版面费高则上万甚至几十万,因为人家在不仅在国际上和行业内有影响力,所花费的精力、财力、物力是一般普通期刊无法相比的。这些核心期刊中大部分是看要发表人的学历、职称、单位等信息。在这类高级期刊上一般影响到价格的除了排版、表格、图片等因素外,最主要的是影响因子;
一般在SCI、EI期刊上发表论文的大部分都是搞科研的工作者。
一般来说,各个刊物的价格是不一样的,所以首先你要确定要发表的刊物后才能知道价格。
省级期刊如果是代发的话价格一般是一千左右。也有的刊物只需要几百块。国家级的期刊价格一般在一千块以上,也有的特别好的期刊价格是几千块。如果是核心期刊的话,价格最起码是好几万。发表论文的时候一定不能一味的图便宜,因为有可能那个便宜的期刊根本没用,不能为你的事业做出任何贡献,白白浪费钱财。
扩展资料:
论文发表5个注意事项
1、注意时间,不要耽误里递交材料的时间。一般学术期刊从投稿到出刊再到邮递杂志到手,之间需要1-2个月的时间。杂志一般为定期出刊,但不定期截稿,部分投稿较多的杂志,截稿会比出刊时间提前2-4个月。
2、鉴别杂志,非法的期刊杂志发表的论文无效。正规期刊当在国家新闻出版总署查询系统里可以查询到,凡查询不到的,均为非法期刊。作者选择杂志的时候,应当先在新闻出版总署的查询系统里查询后再决定,以防发表论文到非法期刊上而使论文发表无效。
3、控制字符数(计空格),杂志都有版面字符要求。第一次发表论文的作者,常不了解杂志的版面要求而使文章没有通过或多花很多冤枉钱。一般杂志一个版面字符数在2200-2800字符间,如果作者文章字符太多很容易遇到高昂的版面费。
比如某杂志一个版面要求2500字符,而作者文章3000字符,多了500字符,但版面费用却要多加了一倍,需要付1.5或2个版面的费用,实在有点冤。核不通过。所以,发表论文,投稿前了解杂志的字符数要求是必要的。
4、论文写作应规范。论文要有标题,作者,作者单位,摘要,关键词,正文,参考文献(没有可无)等。论文内容要有论点,一些解题类,课堂备案类的文章是最不容易通过审核的。尤其文章含有过多专业公式或符号的,杂志往往考虑排版的问题而给予否定。
5、注明联系方式,让编辑能随时与你沟通。一般情况下,作者投稿需要说明自己的联系方式及通讯地址,这涉及到了杂志邮递,文章沟通等问题。这类联系方式内容是不会被刊登出来的,但必须要添加,一般都添加在文章的最后。
1、核心:
国内核心(南大核心、中文核心、科技核心),版面费价格区间8000-1.3W
2、普刊:
知网 1000元——1600元/版,
万方:900元——1400元/版,
维普:700元——1100元/版,
龙源:400元——600元/版
注:数据库通常普刊决定版面高低的主要因素
3、学报:
本科学报:4000元——7000元专科学报:3000元——5000元
学术期刊没有一个统一的价格,以上只是大概市场价,具体还要看你论文的字符数、稿件质量,是否加急(插队)出刊 ...等等
【绿色软件:lunwenchuban】
如晋职称用,还要避开 电子刊号、报纸刊号、增刊、副刊、论文集,虽说这些也属于正规期刊,但是评职称不能用....
如果不投OA期刊,也就是一个润色的费用,几千就能搞定了,如果投OA期刊,一般都是有版面费的,版面费一般在1000-3000刀,再加润色费。当然了,如果没时间翻译,还是中文稿,那还要加上翻译费,不过有翻译+润色一步到位的,会比单独翻译,然后润色要便宜点。
发表论文的费用高低跟四个要素有关系,一个是期刊的级别,一个是论文的版面字数,还有一个论文发表的时间以及查重费用这几者构成了研究生发表论文的费用。
(一)、发表期刊的级别影响费用
1、省级期刊费用一般在600-1500元一个版面。
2、国家级期刊自己投稿费用一般在1200-2000元一个版面,如果是特殊的发表形式,比如法律或医学类型的期刊,相对会贵一些。根据不同要求去发表,价格最高的上万元甚至是更多都会有的。
3、普通学报费用在1000元左右一个版面。
4、国内核心期刊费用几千甚至上万元不等,C刊发表的费用跟期刊的类别都有很大的关系,如果你们单位指的C刊是核心的话那费用多在3-5万元不等,也有一些需要数十万元的费用。
5、一般SCI论文的版面费在1000-1500美元左右,换算成人民币的话就是7000-10000人民币左右,但是也有少数期刊的版面费非常高,达到15000元以上。而且论文还需要请专业机构润色,一般润色费用大约2000-3000元。
(二)、论文字符
论文字符数越多,所占版面越多,价格越高。这2年国家大力整顿学术界,各大杂志社纷纷整改,字符数也比原来的增加了。
1、省级、国家级刊物对论文字符数要求3000-5000字左右
2、普通学报对论文字符数要求在5000-8000
3、核心期刊对论文要求8000以上。
(三)、出刊时间影响费用
按照正常刊期发表,费用最低,加急的时间越快,费用越高。
注:出刊时间越着急越贵(很多期刊并不是说都可以进行加急,因此大家要发表论文还是需要提前进行投稿)
(四)、选择投稿方式不同,价格也不一样
自己投稿和选择代发机构帮忙投稿,价格也不同。在投稿过程中有特殊要求的话,价格也会提升。想要将发表价格控制在最低,可以选择自己投稿的方式,可以省去一部分的中间费用。
如果不投OA期刊,也就是一个sci润色的费用,几千就能搞定了,如果投OA期刊,一般都是有版面费的,版面费一般在1000-3000刀,再加润色费。
支持。第1个缘故是这能优化论文系统,第2个缘故是可减轻学生负担,第3个缘故是降低了申请门槛。
现在发表论文通常是通过中介,杂志社一般不直接和作者接触。偶可帮你做的。
这样子挺好,可以减少很多不必要的文字形式,一个硕士学位不单单是看论文写的好坏,更多的应该考虑一个学生的整体素质和学习能力
朋友发表论文主要是做什么用呢?!~ 要按需发表,现在论文一般都是500以上但是发表很关键啊,需要注意以下几点第一,先考虑你发表论文的用途,评中职,还是高职。中职一般发表省级以上就可以,高职就需要有国家级的了,甚至核心期刊。毕业论文的话,还是根据学校的要求了。第二,考虑价格方面,省级 国家级 核心价格都不一样,但是咱们也不能一再追求低价格,网上假刊太多,小心占小便宜吃大亏,了几百快无所谓,主要是耽搁了事情,评职称一年就一次(要找可以用支付宝付款的)。第三,时间问题,刊物确定好了 一定要确定下(新闻出版总署)是否能查到。然后就是时间,一般杂志从定稿到出刊都得需要1个月,赶上高峰期3月都有可能,如果对方什么都答应你,今天给稿子明天邮递给你刊物,这个肯定是假刊的。第四,价格方面,这个不好说,杂志种类太多,没法完全根据省级 国家级来判断价格,核心期刊的话 悬殊很大。最后祝你成功,这是我发表论文的经验,我帮我同事也发表了一些,希望对你有所帮助。顺便告诉你-百度搜索:清华学术论文网,qhxs 找王编。我就是在这里发表的,杂志也拿到手了,合作过几次挺顺利的。
我 发表过一篇 ,哥们没那么 的,你最好提前准备。你该再询问一 下相 位 需发表期刊的级别, 一般评中级职称发表1-2篇省级或国家级论文即可。省级期刊版面费也就在600左右,国家级的在一千元左右。如果你上网找代理机构发表应该注意几点: 1.承诺很快就能发表的不可信。一般论文发表周期为一个月,太快的一般不可靠。 2.价位特别低的不可信。千万不要贪小便宜吃大亏,几百钱是小,职称今年评不上就得等明年了。 另外,论文如果被录用,是可以打杂志社电话查询的。 我当时是在晋顺论文上发表的,一个月书就拿到了,挺方便的。
论文发表是不需要费用的,只要你自己写的论文自己发表,不需要任何费用,除非你是通过其他机构发送来学校看你实际情况和论文的要求。
很多学生或者老师来咨询明编辑的时候,第一句问的就是论文发表多少钱?
这就跟我们买房子一样,房价多少跟地理位置,朝向,开发商等等都有关系。
所以我们论文也是同理,版面费受很多因素影响,下面我们暂时分3个方面说,没有补充到,遗漏的地方可以评论区问。
一:刊物的级别
1.普刊:几百上千都有
因为涉及到检索网的问题,所以大概先说下费用区间,检索网后面会介绍到,
审核时间:普刊审核周期短,一般来说1-5个工作日,长的也有半个月的
2.学报>1000元
大概的版面费>1000元,具体每本学报的定价不一样,费用以刊物为准
审核时间:学报审核周期较短,一般一周到半个月,长的也有1-3个月的)
3.核心>2000元
很多核心都声称不需要版面费,但大部分通过后都会象征收取一些版面费,大概是>2000元,如果通过中介,基本上就是妥妥的上万了,今年的核心审核都非常严重,即使是中介,退稿率也达到了85%以上,所以建议要投核心的话,至少提前一年准备,万一撤稿后也有充裕时间转投。
审核时间:1-3个月
二:检索网的选择
认准中国权威的四大数据库(知网,万方,维普,龙源)权威性依次递减
1.知网刊物>1000元
因为今年学术大环境的整改,知网也大力规范行业期刊的质量,规范后的期刊能1版起发的寥寥无几,基本上都是2-3版起发,所以相应的版面费也增强,这是版面费涨起来的一方面。
另外一方面:由于规范期刊的质量问题,很多知网刊因未及时调整或不合格,直接下架,导致知网刊供不应求,大多数版面都排到了明年,水涨船高,版面费自然蹭蹭蹭的涨。
2.万方、维普、龙源<1000元 三者费用依次递减
因大量的知网刊被下架后,除了知网刊版面费疯涨之外,其他网也跟着涨价。但由于没有强制规定版面,所以大部分都是1版起发,费用基本上都是少于1000元。
三:论文篇幅长短
一篇文章的篇幅长短直接影响着版面费。
比如:一篇文章6000字符。发一本维普检索的刊物,一版是400元,2000字符一版,这篇文章一共安排3版
那由此可知:版面费是400×3=1200元。
1.那如果我们把这篇文章精简到4000字符,安排2版
版面费是400×2=800元
2.那如果我们精简到3000字符 安排1.5版
版面费是400×1.5=600元
3.如果我们精简到1版2000字符的话,
版面费就是400元
所以:版面费除了受级别,期刊的不同定价以及检索网的影响之外,篇幅长短也是很大的影响因素。
希望题主采纳鸭
发表一篇论文的价格费用高低跟四个要素有关系,一个是期刊的级别,一个是论文的版面字数,还有一个论文发表的时间以及查重费用这几者构成了研究生发表论文的费用。
期刊费用
(一)、发表期刊的级别影响费用
1、省级期刊费用一般在600-1500元一个版面。
2、国家级期刊自己投稿费用一般在1200-2000元一个版面,如果是特殊的发表形式,比如法律或医学类型的期刊,相对会贵一些。根据不同要求去发表,价格最高的上万元甚至是更多都会有的。
3、普通学报费用在1000元左右一个版面
4、国内核心期刊费用几千甚至上万元不等,C刊发表的费用跟期刊的类别都有很大的关系,如果你们单位指的C刊是核心的话那费用多在3-5万元不等,也有一些需要数十万元的费用。
5、一般SCI论文的版面费在1000-1500美元左右,换算成人民币的话就是7000-10000人民币左右,但是也有少数期刊的版面费非常高,达到15000元以上。而且论文还需要请专业机构润色,一般润色费用大约2000-3000元。
(二)、论文字符
论文字符数越多,所占版面越多,价格越高。这2年国家大力整顿学术界,各大杂志社纷纷整改,字符数也比原来的增加了。
1、省级、国家级刊物对论文字符数要求3000-5000字左右
2、普通学报对论文字符数要求在5000-8000
3、核心期刊对论文要求8000以上。
(三)、出刊时间影响费用
按照正常刊期发表,费用最低,加急的时间越快,费用越高。
(四)、选择投稿方式不同,价格也不一样
自己投稿和选择代发机构帮忙投稿,价格也不同。在投稿过程中有特殊要求的话,价格也会提升。想要将发表价格控制在最低,可以选择自己投稿的方式,可以省去一部分的中间费用。
2000年以来发表的论文清单1. Zhou, B.; Li, X.; Li, Y.; Xu, Y.; Zhang, Z.; Zhou, M; Zhang, X.; Liu, Z.; Zhou, J.; Cao, C.; Yu, B.;* Wang, R.,*Discovery and Development of 2H-thiazolo[3,2-a]pyrimidine Derivatives as General Inhibitors of Bcl-2 Family Proteins,ChemMedChem, 2011, 6, 904–921.2. Li, Y.; Zhao, Y.; Wang, R.* Automatic Tailoring and Transplanting: A Practical Method that Makes Virtual Screening More Useful, J. Chem. Inf. Model., 2011, 51, 1474–1491.3. Zhang, Y.; Lin, F.; Deng, X.-D., Wang, R.-X.*, Ye, D.-Y.*, Molecular Modeling of the Three-Dimensional Structure of Human Sphingomyelin Synthase, Chinese J. Chem. 2011, in press.4. Li, Y.; Liu, Z.; Wang, R.*, “Test MM-PB/SA on True Conformational Ensembles of Protein-Ligand Complexes”, J. Chem. Inf. Model.2010, 50, 1682-1692.5. Lin, F.; Wang, R.*, “Systematic Derivation of AMBER Force Field Parameters Applicable to Zinc”, J. Chem. Theory Comput. 2010, 6, 1852-1870.6. Cheng, T.; Liu, Z.; Wang, R.*, “A Knowledge-Based Strategy for Improving the Accuracy of Scoring Functions in Binding Affinity Prediction”, BMC Bioinformatics, 2010, 11, 193-208.7. Li, X.; Li, Y.; Cheng, T.; Liu, Z.; Wang, R.*, “Evaluation of the Performance of Four Molecular Docking Programs on a Diverse Set of Protein-Ligand Complexes”, J. Comp. Chem. 2010, 31, 2109-2125.8. Shi, H.; Zhou, B.; Li, W.; Shi, Z.; Yu, B.*; Wang, R.*, Synthesis and Anti-tumor Activities of Methyl 2-O-Aryl-6-O-Aryl'-D-Glucopyranosides, Bioorg. Med. Chem. Lett., 2010, 20, 2855-2858.9. Li, X.; Liu, Z.; Li, Y.; Li, J.; Li, J.; Wang, R.*, “A Statistical Survey on the Binding Constants of Covalently Bound Protein-Ligand Complexes”, Mol. Informatics, 2010, 29,87-96.10. Zheng, F.; Lin, F.; Wang, R.; Qing, F.-L. “Synthesis and conformational analysis of D-2-deoxy-2,2-difluoro-4-dihydro-4-thionucleosides”, Org. Biomol. Chem., 2010, 8, 163-170.11. Lin, F.; Wang, R.* “Hemolytic Mechanism of Dioscin Proposed by Molecular Dynamics Simulations”, J. Mol. Model.2010, 16, 107-118.12. Cheng, T.; Li, X.; Li, Y.; Liu, Z.; Wang, R.* “Comparative Assessment of Scoring Functions on a Diverse Test Set”, J. Chem. Inf. Model. 2009, 49, 1079-1093.13. Zhang, X.; Li, X.; Wang, R.* “Interpretation of the Binding Affinities of PTP1B Inhibitors with the MM-GB/SA method and the X-Score Scoring Function”, J. Chem. Inf. Model. 2009, 49, 1033-1048. (cover story)14. Li, Y.; Zhou, B.; Wang, R.* “Rational Design of Tamiflu Derivatives Targeting at the Open Conformation of Neuraminidase Subtype 1”, J. Mol. Graph. Model. 2009, 28, 203-219.15. Li, X.; Wang, R.* “Automatic Identification of Antibodies in the Protein Data Bank”, Chinese Journal of Chemistry, 2009, 27, 23-28.16. Wang, K.; Wu, Y.-S.; Wang, G.-T.; Wang, R.-X.; Jiang, X.-K.; Fu, H.-B.; Li, Z.-T., Hydrogen bonding-mediated foldamer-bridged zinc porphyrin-C60 dyads: ideal face-to-face orientation and tunable donor–acceptor interaction,Tetrahedron, 2009, 65, 7718–7729.17. Zhu, Y.-Y.; Wang, G.-T.; Wang, R.-X.; Li, Z.-T. Intramolecular Six-Membered and Three-Center C-H-O Hydrogen Bonding in 1,4-Diphenyl-1,2,3-Triazoles, Cryst. Growth Des., 2009, 9, 4778–4783.18. Liu, Z. G.; Wang, G. T.; Li, Z. T.; Wang, R.* “Geometrical Preferences of the Hydrogen Bonds on Protein-Ligand Binding Interface Derived from Statistical Surveys and Quantum Mechanics Calculations”, J. Chem. Theory Comput. 2008, 4,1959–1973.19. Lin, F.; Wang, R.* “Molecular modeling of the three-dimensional structure of GLP-1R and its interactions with several agonists”, J. Mol. Model. 2008, 15, 53-65.20. Cai, W.; Wang, G. T.; Du, P.; Wang, R. X.; Jiang, X. K.; Li, Z.T.* “Foldamer Organogels: A Circular Dichroism Study of Glucose-Mediated Dynamic Helicity Induction and Amplification”, J. Am. Chem. Soc. 2008, 130, 13450–13459.21. Yeang, C.; Varshney, S.; Wang, R.; Zhang Y.; Ye D.Y.; Jiang, X. C.* “The domain responsible for sphingomyelin synthase (SMS) activity”, Biochimica et Biophysica Acta-Molecular and Cell Biology of Lipids, 2008, 1781, 610-617.22. Cheng, T.; Zhao, Y.; Li, X.; Lin, F.; Xu, Y.; Zhang, X.; Li, Y.; Wang, R.*; Lai, L. “Computation of Octanol-Water Partition Coefficients by Guiding an Additive Model with Knowledge”, J. Chem. Inf. Model. 2007, 47, 2140-2148.23. Zhao, Y.; Cheng, T.; Wang, R.* “Automatic Perception of Organic Molecules Based on Essential Structural Information”, J. Chem. Inf. Model. 2007, 47, 1379-1385.24. Wang, R.*; Lin, F.; Xu, Y.; Cheng, T. “I-SOLV: A new surface-based empirical model for computing solvation free energies”, J. Mol. Graph. Model. 2007, 26, 368-377.25. Feng, D.-J.; Wang, G..-T.; Wu, J.; Wang, R.-X.; Li, Z.-T.* “Hydrogen bonding-driven elastic bis(zinc)porphyrin receptors for neutral and cationic electron-deficient guests with a sandwich-styled complexing pattern”, Tetrahedron Lett.2007, 48, 6181-6185.26. Li, C.; Wang, G.; Yi, H.; Jiang, X.; Li, Z.*;Wang, R.* “Diastereomeric Recognition of Chiral Foldamer Receptors for Chiral Glucoses”, Org. Lett. 2007, 9, 1797-1800.27. Ma, D.*; Yu, S.; Li, B.; Chen, L.; Chen, R.; Yu, K.; Zhang, L.; Chen, Z.; Zhong, D.; Gong, Z.; Wang, R.; Jiang, H.; Pei, G. “Synthesis and Biological Evaluation of 1,3,3,4-Tetrasubstituted Pyrrolidine CCR5 Receptor Antagonists. Discovery of a Potent and Orally Bioavailable Anti-HIV Agent”, ChemMedChem, 2007, 2, 187-193.28. Tang, G.; Ding, K.; Nikolovska-Coleska, Z.; Yang, C.-Y.; Qiu, S.; Shangary, S.; Wang, R.; Guo, J.; Gao, W.; Meagher, J.; Stuckey, J.; Krajewski, K.; Jiang, S.; Roller, P. P.; Wang, S.* “Structure-Based Design of Flavonoid Compounds As a New Class of Small-Molecule Inhibitors of the Anti-apoptotic Bcl-2 Proteins”, J. Med. Chem. 2007, 50, 3163-3166.29. Tang, G.-Z.; Yang, C.-Y.; Nikolovska-Coleska, Z.; Guo, J.; Qiu, S.; Wang, R. X.; Gao, W.; Wang, G.-P.; Stuckey, J.; Krajewski, K.; Jiang, S.; Roller, P. P.; Wang, S. M.* “Pyrogallol-based molecules as potent inhibitors of the antiapoptotic Bcl-2 proteins”, J. Med. Chem. 2007, 50, 1723-1726.30. Lu, Y.; Wang, R.; Yang, C.-Y.; Wang, S.* “Analysis of ligand-bound water molecules in high-resolution crystal structures of protein-ligand complexes”. J. Chem. Inf. Model. 2007, 47, 668-675.31. Zhang M.C.; Ling, Y.; Yang, C.-Y.; Liu, H. P.; Wang, R. X.; Wu, X. H.; Ding, K.; Zhu, F.; Griffith, B. N.; Mohammad, R. M.; Wang, S. M.*; Yang, D. J. “A novel Bcl-2 small molecule inhibitor 4-(3-methoxy-phenylsulfannyl)-7-nitro-benzofurazan-3-oxide (MNB)-induced apoptosis in leukemia cells”. Annals. Hematology, 2007, 86, 471-481.32. Xu, Y.; Wang, R.* “A Computational Analysis of the Binding Affinities of FKBP12 Inhibitors Using the MM-PB/SA Method”, Proteins, 2006, 64, 1058-1068.33. Yu, S.; Pu, X.; Cheng, T.; Wang, R.; Ma, D.* “Total Synthesis of Clavepictines A and B and Pictamine”,Org. Lett.2006, 8, 3179-3182.34. Ma, D.*; Jiang, Y.; Chen, F.; Gong, L.-k.; Ding, K.; Xu, Y.; Wang, R.; Ge, A.; Ren, J.; Li, J.; Li, J.; Ye, Q. “Selective Inhibition of Matrix Metalloproteinase Isozymes and in Vivo Protection against Emphysema by Substituted -Keto Carboxylic Acids”, J. Med. Chem. 2006, 49, 456-458.35. Wang, G.; Nikolovska-Coleska, Z.; Yang, C.-Y.; Wang, R.; Tang, G.; Guo, J.; Shangary, S.; Qiu, S.; Gao, W.; Yang, D.; Meagher, J.; Stuckey, J.; Krajewski, K.; Jiang, S.; Roller, P. P.; Abaan, H. O.; Tomita, Y.; Wang, S.* “Structure-Based Design of Potent Small-Molecule Inhibitors of Anti-Apoptotic Bcl-2 Proteins”, J. Med. Chem., 2006, 49, 6139-6142.36. Yang, C.-Y.; Wang, R.; Wang, S.* “M-Score: A Knowledge-Based Potential Scoring Function Accounting for Protein Atom Mobility”, J. Med. Chem. 2006, 49, 5903-5911.37. Wang, R.; Fang, X.; Lu, Y.; Yang, C.-Y.; Wang, S.* “The PDBbind Database: Methodologies and Updates”, J. Med. Chem. 2005, 48, 4111-4119.38. Yang, C.-Y.; Wang, R.; Wang, S.* “A Systematic Analysis of the Effect of Small-Molecule Binding on Protein Flexibility of the Ligand-Binding Sites”, J. Med. Chem.2005, 48, 5648-5650.39. Song, H.; Wang, R.; Wang, S; Lin, J.* “A low-molecular-weight compound discovered through virtual database screening inhibits Stat3 function in breast cancer cells”, Proc. Natl. Acad. Sci. 2005, 102, 4700-4705.40. Wang R.; Lu Y.; Fang X.; Wang S.* “An Extensive Test of 14 Scoring Functions Using the PDBbind Refined Set of 800 Protein-Ligand Complexes”, J. Chem. Inf. Comput. Sci. 2004, 44, 2114-2125.41. Real P. J.; Cao, Y.; Wang R.; Nikolovska-Coleska Z.; Sanz-Ortiz J.; Wang S.; Fernandez-Luna J. L.* “Breast cancer cells can evade apoptosis-mediated selective killing by a novel small molecule inhibitor of Bcl-2”, Cancer Research, 2004,64, 7947-7953.42. Wang, R.; Fang, X.; Lu, Y.; Wang, S.* “The PDBbind Database: Collection of Binding Affinities for Protein-Ligand Complexes with Known Three-Dimensional Structures”, J. Med. Chem. 2004, 47, 2977-2980.43. Nikolovska-Coleska, Z.; Wang, R.; Fang X, Wang, S.* “Development and optimization of a binding assay for the XIAP BIR3 domain using fluorescence polarization”, Analytical Biochemistry 2004, 332, 261-273.44. Nikolovska-Coleska, Z.; Xu, L.; Hu, Z.; Tomita, Y.; Li, P.; Roller, P. P.; Wang, R.; Fang, X.; Guo, R.; Zhang, M.; Lippman, M. E.; Yang, D.; Wang, S.* “Discovery of Embelin as a Cell-Permeable, Small-Molecular Weight Inhibitor of XIAP through Structure-Based Computational Screening of a Traditional Herbal Medicine Three-Dimensional Structure Database”, J. Med. Chem.2004,47,2430-2440.45. Gao, Y.; Wang, R.; Lai, L.* “Structure-based method for analyzing protein-protein interfaces”, J. Mol. Model.2004, 10, 44-54.46. Wang, R.; Lu, Y.; Wang, S.* “Comparative Evaluation of Eleven Scoring Functions for Molecular Docking”, J. Med. Chem. 2003, 46, 2287-2303.47. Leach, A. G.; Wang, R.; Wohlhieter, G. E.; Khan, S. I.; Jung, M. E.; Houk, K. N.* “Theoretical Elucidation of Kinetic and Thermodynamic Control of Radical Addition Regioselectivity”, J. Am. Chem. Soc. 2003, 125, 4271-4278.48. Wang, R.; Lai, L.; Wang, S.* “Further development and validation of empirical scoring functions for structure-based binding affinity prediction”, J. Comput.-Aided Mol. Des. 2002, 16, 11-26.49. Gao, Y.; Wang, R.; Lai, L.* “New method to analyze protein-protein interaction interface”, Acta Phys.-Chim. Sinica 2002, 18, 676-679.50. Wang, R.; Wang, S.* “How does consensus scoring work for virtual library screening? An idealized experiment”, J. Chem. Inf. Comput. Sci. 2001, 41, 1422-1426.51. Rong, S.; Hu, Y.; Enyedy, I.; Powis, G.; Meuillet, E. J.; Wu, X.; Wang, R.; Wang, S.*; Kozikowski, A. P. “Molecular Modeling Studies of the Akt PH Domain and Its Interaction with Phosphoinositides”, J. Med. Chem. 2001, 44, 898-908.52. Chen, J.; Wang, R.; Taussig, M.; Houk, K. N.* “Quantitative Calculation of Antibody-Antigen Binding: Steroid-DB3 Binding Energies by the Linear Interaction Energy Method”, J. Org. Chem. 2001, 66, 3021-3026.53. Liu, Y.; Feng, Y.; Wang, R.; Gao, Y.; Lai, L.* “Quinoline-4-acetamides as sPLAB2B Inhibitors”, Bioorgan. & Med. Chem. Lett. 2001, 11, 1639-1641.54. Liu, Y.; Feng, Y.; Gao, Y.; Wang, R.; Lai, L.* “Structure-based design and synthesis of novel type quinoline as secretory PLA(2) inhibitors”, Acta Phys.-Chim. Sinica 2001, 59, 1751-1755.55. Chen, J.; Deng, Q.; Wang, R.; Houk, K. N.*; Hilvert, D.* Shape Complementarity, Binding Site Dynamics, and Transition State Stabilization: A Theoretical Study of Diels-Alder Catalysis by Antibody 1E9, ChemBioChem 2000, 1, 255-261.56. Wang, R.; Gao, Y.; Lai, L.* LigBuilder: A Multiple-Purposed Program for Structure-Based Drug Design, J. Mol. Model. 2000, 6, 498-516.57. Wang, R.; Gao, Y.; Lai, L.* Calculating Partition Coefficients by Atom-Additive Method, Perspective in Drug Discovery & Design. 2000, 19, 47-66.
近五年作为通讯作者,共发表了研究论文200余篇,其中被SCI收录180余篇,主要发表在国际著名的Adv. Funct. Mater.、Chem: Eur.J.、Chem. Commun.、J. Mater. Chem.、 J. Phys. Chem. B、J. Phys. Chem. C、J. Comput. Chem.、Inorg. Chem.、Appl. Catal. B、Nanotechnology、J. Phys.: Condensed Matter等学术期刊上,影响因子在3.0以上的论文有50余篇,其中影响因子在5.0以上8篇。成果被SCI收录期刊正面引用1400余次。出版专著两部,美国科学出版社邀请为纳米科学技术大百科全书撰写了完整的一章。申请发明专利14项。已发表和已录用的主要论文清单如下(以下均为SCI期刊收录论文,*代表通讯联系人)·Pan Qing-Jiang,Guo Yuan-Ru,Li Li,Fu Hong-Gang*,and Zhang Hong-Xing “Structures,Spectroscopic Properties and Redox Potentials of Quaterpyridyl Ru(Ⅱ) Photosensitizer and its Derivatives for Solar Energy Cell: A Density Functional Study” Physical Chemistry Chemical Physics 2011,DOI:10.1039/C1CP00030F.·Gao Xiao-Qin,Pan Qing-Jiang,Li Li,Guo Yuan-Ru,Zhang Hong-Xing,Fu Hong-Gang* “Structures and Spectroscopic Properties of Ruthenium Phenanthroline Solar-Cell Sensitizers: A Computational Study” Chemical Physics Letters,2011,506,146-151.·Zhou W,Sun FF,Pan K,Tian GH,Fu HG*. Well-ordered large-pore mesoporous anatase TiO2 with remarkably high thermal stability and improved crystallinity: Preparation,characterization and photocatalytic performance. Advanced Functional Materials,2011,21,1922-1930..·Jiang Baojiang,Tian CG,Fu Honggang*,et al. In-Situ Growth of TiO2 in Interlayers of Expanded Graphite for the Fabrication of TiO2-Graphene with Enhanced Photocatalytic Activity. Chemistry-A European Journal,2011,Accepted,chem.201100250.· Li Sun,Chungui Tian,Lei Wang,Jinlong Zou,Guang Mu,Honggang Fu*,Magnetically Separable Porous Graphitic Carbon with Large Surface Area as Excellent Adsorbents for Metal Ions and Dye. Journal of Materials Chemistry,2011,2011,21,7232-7239.· Zhao H,Yang J,Wang L,Tian CG,Jiang BJ,Fu HG*. Fabrication of palladium nanoparticles/graphene nanosheets hybrid via sacrifice of copper template and its application in catalytic oxidation of formic acid. Chemical Communications,2011,47,2014-2016.· Yang J,Tian CG,Wang L,Fu HG*. An effective strategy to small-sized and high-dispersed palladium nano particles supported on graphene with excellent performance for formic acid oxidation. Journal of Materials Chemistry,2011,21,3384-3390.· Tian GH,Chen YJ,Zhou W,Ren ZY,Tian CG,Fu HG*. Facile solvothermal synthesis of hierarchical flower-like Bi2MoO6 hollow spheres as high performance visible-light driven photocatalysts. Journal of Materials Chemistry,2011,21,887 – 892.· Hu ZF,Shen PK*,Fu HG*,et al. Oxygen Reduction Electrocatalysis Enhanced by Nanosized Cubic Vanadium Carbide. Electrochemistry Communications,2011,Accepted,ELECOM 3881.· Tian Guohui,Chen Yajie,Zhou Wei,Pan Kai,Huang Xu-ri and Fu Honggang *,3D hierarchical flower-like TiO2 nanostructure: morphology control and its photocatalytic property. CrstEngComm,2011,13,2994.· Dong Youzhen,Pan Kai,Zhou Wei,Pan Qingjiang,Xie Tengfeng,Wang Dejun,Fu Honggang*,Dye-sensitized solar cells based on TiO2-B nanobelt/TiO2 nanoparticle sandwich-type photoelectrodes with controllable nanobelt length. Dalton Transactions,2011,40,3808–3814.· Cai ZC,Tian CG,Wang L,Zhou W,Wang BL,Fu HG*. One-pot synthesis of silver particle aggregation as highly active SERS substrate. Journal of Raman Spectroscopy,2011,1,5-11.· Tian CG,Li W,Fu HG*,et al. Glucose-mediated solution-solid route for easy synthesis of Ag/ZnO particles with superior photocatalytic activity and photostability,Journal of Alloys and Compounds,2011,509,6935-6941.· Tian CG,Li W,Fu HG*,et al. Controllable Fabrication of Various ZnO Micro/nanostructures from a Wire-like Zn-EG-AC Precursor via a Facile Solution-based Route,Materials Research Bulletin,2011,MRB5116.· Zhao H,Fu HG,Tian CG,et al.Facile shape-controlled synthesis of palladium nanostructures on copper for promising Surface-enhanced Raman scattering,MATERIALS LETTERS,2010,64,2255-2257· Zhao H,Fu HG,Tian CG,et al. Fabrication of silver nanoparticles/single-walled carbon nanotubes composite for surface-enhanced Raman scattering,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2010,351,343-347.· Jiang BJ,Tian CG,Fu HG*,et al. Facile Fabrication of High Quality Graphene from Expandable Graphite: Simultaneous Exfoliation and Reduction. Chemical Communication. 2010,46,4920 - 4922.· Feng SS,Ren ZY,Fu HG*,et al. Synthesis and application of hollow magnetic graphitic carbon microspheres with/without TiO2 nanoparticle layer on the surface. Chemical Communication. 2010,46,6276-6278.· Liu Y,Ren ZY,Fu HG*,et al. Synthesis and applications of graphite carbon sphere with uniformly distributed magnetic Fe3O4 nanoparticles (MGCSs) and MGCS@Ag,MGCS@TiO2. Journal of Material Chemistry 2010,20,4802- 4808.· Wang L,Tian CG,Fu HG*,et al. Mass production of graphene via an in situ self-generating template route and its promoted activity as electrocatalytic support for methanol electroxidization. Journal of Physical Chemistry C 2010,114 (19),8727–8733.· Qu Y,Zhou W,Fu HG*,et al. Hierarchical anatase TiO2 porous nanopillars with high crystallinity and controlled length: An effective candidate for dye-sensitized solar-cells. Physical Chemistry Chemical Physics 2010,12,9205 - 9212.· Wang BL,Tian CG,Fu HG,et al. Chitosan: a green carbon source for the synthesis of graphitic nanocarbon,tungsten carbide and graphitic nanocarbon/tungsten carbide composites. Nanotechnology 21 (2010) 025606 (9pp).· Li YJ,LV RJ,Fu HG*,et al. Fabrication and evaluation of chiral monolithic column modified by β-cyclodextrin derivatives. Talanta 80 (2010) 1378–1382· Zhou W,Pan K,Fu HG*,et al. Photodegradation of organic contamination in wastewaters by bondingTiO2/single-walled carbon nanotube composites with enhanced photocatalytic activity. Chemosphere 81 (2010) 555–561.· Guohui Tian,Chen Yajie,Pan Kai,Fu Honggang*,Efficient visible light-induced degradation of phenol on N-doped anatase TiO2 with large surface area and high crystallinity. Applied Surface Science 2010,256,3740-3745.· Tian CG,Li W,Fu HG*,et al. One-pot Synthesis of the Ag Nanoparticles modified ZnO Microspheres in Ethylene Glycol Medium and Their Enhanced Photocatalytic Performance. Journal of Solid State Chemistry,2010,183,2720-2725.· Zhou W,Pan K,Fu HG*,et al. The sandwich structure electrodes based on wire-likeTiO2–β-cyclodextrin–SWCNT composite for dye-sensitized solar cells. Journal of Photochemistry and Photobiology A: Chemistry 2009,207,306–310.· Tian XQ,Wan LJ,Fu HG*,et al. Facile synthesis of mesoporous ZnAl2O4 thin films through the evaporation-induced self-assembly method. Journal of Alloys and Compounds 2009,488,320–324.· Wang RH,Tian CG,Fu HG*,et al. In situ simultaneous synthesis of WC/graphitic carbon nanocomposite as a highly efficient catalyst support for DMFCw. Chemical Communication 2009,3104-3106.· Pan QJ,Fu HG*,Zhang HX*,et al. Theoretical Studies on Metal−Metal Interaction,Excited States,and Spectroscopic Properties of Binuclear Au−Au,Au−Rh,and Rh−Rh Complexes with Diphosphine Ligands: Buildup of Complexity from Monomers to Dimers. Inorganic Chemistry,2009,48,2844–2854.· Zhou W,Pan K,Fu HG*,et al. Solar-induced Self-assembly of TiO2-β-cyclodextrin-MWCNT Composite Wires. Physical Chemistry Chemical Physics 2009,11,1713-1718.· Kang CH,Jing LQ*,Fu HG*,et al. Mesoporous SiO2-Modified Nanocrystalline TiO2 with High Anatase Thermal Stability and Large Surface Area as Efficient Photocatalyst. Journal of Physical Chemistry C 2009,113,1006–1013.· Wang BL,Tian CG,Fu HG*,et al. A simple and large-scale strategy for the preparation of Ag nanoparticles supported on resin-derived carbon and their antibacterial properties. Nanotechnology 2009,20,025603(7pp)· Tian GH,Fu HG*,Jing LQ,et al. Synthesis and photocatalytic activity of stable nanocrystalline TiO2 with high crystallinity and large surface area. Journal of Hazardous Materials 2009,161,1122-1130.· Zhang GX,Yu HT*,Fu HG,et al. First-principles calculations of the stability and electronic properties of the PbTiO3 (110) polar surface. Journal of Computational Chemistry 2009,30,1785-1798.· Tian GH,Pan K,Fu HG*,et al. Enhanced photocatalytic activity of S-doped TiO2-ZrO2 nanoparticles under visible-light irradiation. Journal of Hazardous Materials 2009,166,939-944.· Pan K,Dong YZ,Fu HG*,et al. TiO2-B narrow nanobelt/TiO2 nanoparticle composite photoelectrode for dye-sensitized solar cells. Electrochimica Acta 2009,54,7350-7356.· Kan K,Fu HG,Shi KY*,et al. Amidation of single-walled carbon nanotubes by a hydrothermal process for the electrooxidation of nitric oxide. Nanotechnology 2009,20,185502 (7pp).· Wang L,Tian CG,Fu HG*,et al. Controllable Synthesis of Graphitic Carbon Nanostructures from Ion-Exchange Resin-Iron Complex via Solid-State Pyrolysis Process. Chemical Communication 2008,5411-5413.· Zhou W,Fu HG*,Pan K,et al. Mesoporous TiO2/α-Fe2O3: Bifunctional Composites for Effective Elimination of Arsenite Contamination through Simultaneous Photocatalytic Oxidation and Adsorption. Journal of Physical Chemistry C 2008,112,19584-19589.· Liu KS,Fu HG*,Xie Y,et al. Assembly of β-Cyclodextrins Acting as Molecular Bricks onto the Multiwall Carbon Nanotubes.Journal of Physical Chemistry C 2008,112,951-957.· Tian GH,Fu HG*,Jing LQ,et al. Preparation and Characterization of Stable Biphase TiO2 Photocatalyst with High Crystallinity,Large Surface Area and Enhanced Photoactivity. Journal of Physical Chemistry C 2008,112,3083-3089.· Zhou W,Liu KS,Fu HG*,et al. Multi-modal mesoporous TiO2–ZrO2 composites with high photocatalytic activity and hydrophilicity. Nanotechnology 2008,19,035610(7pp).· Pan QJ,Zhou X,Fu HG*,et al,“Isovalent Gold(I),-(Ⅱ),and -(Ⅲ) and Mixed-Valent Gold(I)/Gold(Ⅲ) Phosphorus Ylide Complexes. Combined ab Initio and Density Functional Study of Electronic Structures and Spectroscopic Properties” Organometallics 2008,27,2474–2482.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of ordered nanocrystalline alumina thin films with tunable mesopore structures. Microporous and Mesoporous Materials 2008,115(3),301-307.· Pan QJ,Zhou X,Fu HG*,et al. A theoretical probe on the ground- and excited-state properties of heterobinuclear Au–Pt complex with phosphine ligands. Comparison with analogous homobinuclear Au–Au and Pt–Pt complexes. Chemical Physics Letters 2008,453,7-12.· Jing LQ*,Li SD,Fu HG*,et al. Investigation on the electron transfer between anatase and rutile in nano-sized TiO2 by means of surface photovoltage technique and its effects on the photocatalytic activity. Solar Energy Materials & Solar Cells 2008,92,1030– 1036.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of iron oxide with wormlike morphology and their application in water treatment. Journal of Solid State Chemistry 2008,181(4),735-740.· Chi YJ,Fu HG*,Qi LH,et al. Preparation and photoelectric performance of ITO/TiO2/CdS composite thin films. Journal of Photochemistry and Photobiology A: Chemistry 2008,195(2-3),357-363.· Xie Y,Yu HT,Fu HG*,et al. Lattice dynamics investigation on different transition behaviors of cubic BaTiO3 and SrTiO3 by first-principles calculatoins. J. Phys.: Condens. Matter,2008,20,215215 (8pp)· Wan LJ,Fu HG*,Shi KY,et al. Simple synthesis of mesoporous alumina thin films.Material Letters 2008,62(10-11),1525-1527.· Song S,Jing LQ*,Fu HG*,et al. Superhydrophilic anatase TiO2 film with the micro- and nanometer-scale hierarchical surface structure. Materials Letters 2008,62,3503–3505.· Zhu YJ,Yuan FL*,Fu HG,et al. Direct NO decomposition over La2-xBaxNiO4 catalysts containing BaCO3 phase. Appl. Catal B-Environ 2008,82,255-263.· Li MX,Zhang HX*,Fu HG,et al. Theoretical Studies of Electronic Structuresand Spectroscopic Properties of Ru Complexes. Inorg. Chem 2008 47(7),2312-2324.· Xie Y,Yu HT,Fu HG*,A First-Principles Investigation of Stability and Structural Properties of the BaTiO3 (110) Polar Surface. Journal of Physical Chemistry C,2007,111,6343-6349.· Kan W,Yu HT,Fu HG*,et al. Theoretical investigation on the protonation reactions and products of the stable [N,C,C,S] isomers,Journal of Computational Chemistry,2007,28,2472-2482.· Zhao YL,Yu HT*,Fu HG,et al. Combined DFT,QCISD(T),and G2 mechanism investigation for the reactions of carbon monophosphide CP with unsaturated hydrocarbons allene CH2CCH2 and methylacetylene CH3CCH,Journal of Computational Chemistry,2007,28,1221-1233.· Pan QJ,Zhang HX*,Fu HG,et al. Electronic Structures and Spectroscopic Properties of Mono- and Binuclear d8 Complexes: a Theoretical Exploration on Promising Phosphorescent Materials. Journal of Physical Chemistry A,2007,111(2); 287-294.· Pan QJ,Zhou X,Fu HG*,et al. Theoretical studies on spectroscopic properties of binuclear palladium(Ⅱ) halide with phosphine ligands Journal of Photochemistry and Photobiology A: Chemistry,2007,188(2-3),287-292.· Xie Y,Fu HG*,Yu HT,et al. A first-principles investigation into the ferroelectric and antiferrodistortive instabilities of cubic SrTiO3,Journal of Physics: Condensed Matter,2007,19,506213(9pp)· Pan QJ,Zhou X,Fu HG*,et alStructures and electronic spectra of [Pt2(P2O5H2)4X2]4– (X = Cl,Br and I): a comparative study of ab initio and density functional theory Inorganic Chemistry Communications 2007,10,183–186.· Li SD,Jing LQ,Fu HG*,et al. Photoinduced charge property of nanosized perovskite-type LaFeO3 and its relationships with photocatalytic activity under visible irradiation. Materials Research Bulletin 2007,42,203-212.· Yang PP,Fu HG,Lin J*,et al. MCM-41 functionalized with YVO4: Eu3+: a novel drug delivery system. Nanotechnology 2007,18,235703(6pp).· Yang PP,Fu HG,Lin J*,et al. Luminescence functionalization of SBA-15 by YVO4: Eu3+ as a novel drug delivery system. Inorg. Chem. 2007,46,3202-3211.· Jing LQ,Fu HG*,Wang BQ,et al. 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Nanotechnology 2006,17,3641-3648.· Pan QJ,Zhang HX*,Fu HG,et al “Theoretical Studies on Metal–Metal Interaction and Intrinsic 1,3[σ*(d)σ(s/p)] Excited States of Binuclear d10 Complexes with Bridging Phosphine Ligands” European Journal of Inorganic Chemistry 2006 (5),1050-1059.· Jing LQ,Wang DJ,Fu HG*,et al. Effects of noble metal modification on surface oxygen composition,charge separation and photocatalytic activity of ZnO nanoparticles. Journal of Molecular Catalysis A 2006,244,193-200.· Pan QJ,Fu HG*,Yu HT,et al Substituent effect on the structure and luminescence of binuclear Au(I) complexes: An ab initio study. Chemical Physics Letters 2006,426(4-6),257-262.· Jing LQ,Qu YC,Fu HG*,et al. Review of photoluminescence performance of nano-sized semiconductor materials and its relationships with photocatalytic activity. Solar Energy Materials & Solar Cell 2006,90,1773-1787.· Pan QJ,Fu HG*,Yu HT,et al Spectroscopic Properties of Mono- and Binuclear Platinum(Ⅱ) Alkynyl Complexes with Phosphine Ligands: A Theoretical StudyInorganica Chimica Acta 2006,359(10),3306–3314.· Wang BQ,Jing LQ,Fu HG*,et al. Enhancement of the photocatalytic activity of TiO2 nanoparticles by surface-capping DBS groups. Applied Surface Science 2006,252,2817-2825.· Liu KS,Zhang ML,Fu HG*,et al. Uniform TiO2 thin films with anatase nanocrystallites synthesized through evaporation-induced assembly. Journal of Non-Crystalline Solids 2006,352,2284–2287.· Liu KS,Fu HG*,Shi KY,et al. Preparation of large-pore mesoporous nanocrystalline TiO2 thin films with tailored pore diameters. Journal of Physical Chemistry B 2005,109 (40),18719-18722.· Shi KY,Chi YJ,Fu HG*,et al. Controlled growth of mesostructured crystalline iron oxide nanowires and Fe-filled carbon nanotube arrays templated by mesoporous silica SBA-16 film. Journal of Physical Chemistry B2005,109 (7),2546-2551.· Xin BF,Jing LQ,Fu HG*,et al. Effects of simultaneously doped and deposited Ag on the photocatalytic activity and surface states of TiO2. Journal of Physical Chemistry B2005,109,2805-2809.· Liu KS,Zhang ML,Fu HG*,et al. Preparation,characterization,and photo-induced hydrophilicity of nanocrystalline anatase thin films synthesized through evaporation-induced assembly. Nanotechnology 2005,16,3006-3011.· Xin BF,Ren ZY,Fu HG*,et al. Photocatalytic activity and interfacial carrier transfer of Ag–TiO2 nanoparticle films. Applied Surface Science 2005,252,2050–2055.· Liu KS,Zhang ML,Fu HG*,et al. Large pore mesoporous nanocrystalline titania thin films synthesized through evaporation-induced self-assembly. Materials Letters 2005,59,3308 -3310.