发布时间:
Sci是目前国际上权威较高的一类学术期刊,主要用于基础研究和对研究成果的评价,在国内很多单位、科研机构以及高等院校都通过sci期刊来评价作者的学术水平,发表一篇sci论文往往要比国内核心期刊论文高一个级别,在sci期刊当中也会被分为四个分区,论文发sci一区厉害吗?其中一区的刊物影响力最高,所以自然能够发表sci一区的作者也足以证明自己的学术水平了。
一篇13分sci不可以直博博士学位申请人必须已获得硕士学位,并在获得硕士学位后工作二年以上。申请人应在教学、科研、专门技术领域做出突出成绩,在申请学位的学科领域独立发表过高水平的学术论文,或出版过高水平的专著,其科研成果获得国家级或省部级以上奖励。
姜宇后来考入北京大学数学系,2012年又考入清华大学宇航学院攻读硕士学位,2014年继续攻读博士学位,并且仅用1年9个月就提前取得了清华大学博士学位。
1年9个月拿到清华博士学位,一作发表sci论文27篇,曾在国际大赛击败NASA.
没有具体篇数要求,在申请学位的学科领域独立发表过高水平的学术论文即可。
博士学位申请人必须已获得硕士学位,并在获得硕士学位后工作二年以上。申请人应在教学、科研、专门技术领域做出突出成绩,在申请学位的学科领域独立发表过高水平的学术论文,或出版过高水平的专著,其科研成果获得国家级或省部级以上奖励。
具备申请博士学位基本条件的同等学力人员,应当在学位授予单位规定的期限内,向学位授予单位提交以下材料:硕士学位证书;最后学历证明;准备申请博士学位的学位论文;公开发表的有关学术论文,出版的专著,以及科研成果获奖的证明材料。
扩展资料:
博士学位的申请的相关要求规定:
1、博士学位论文答辩应在申请人通过全部课程考试后的一年内完成。学位授予单位应指定博士生指导教师对申请人的论文进行必要的指导。
2、对于在科学或专门技术上有重要的著作、发明、发现或发展者,经有关专家推荐,学位授予单位同意,可以免除部分或全部课程考试,直接申请参加博士论文答辩。
3、学位授予单位的学位与研究生教育管理部门应对已经资格审查合格的申请人,按博士研究生培养方案规定的课程组织考试。自通过资格审查之曰起,一年内完成全部课程考试,且成绩合格。未通过课程考试者,本次申请无效。
参考资料来源:百度百科-博士学位
硕士两篇sci是可以去985读博。
sci文章是被sci(Scientific Citation Index,<科学引文索引>)收录的期刊所刊登的文章,sci文章可以算是国际学术界的顶尖文章级别,sci文章可以代表本专业在全球的最先技术以及发展趋势,所以sci文章在学术界的认可度很高。因此SCI文章对于很多作者来说是对自身学术水平的最高认可,国内的越来越多的科研单位和博士生都是非常重视SCI文章的发表的。
从硕士到博士大致分为三种情况,直博,本科毕业直接读博士,不限制学校。硕转博,硕士没有毕业中途转读博士,一般仅限于本校。普博,硕士毕业,再读博士,不限制学校,一般是异校。每个学校的学硕转博条件应该是不同的,一般转自己导师的博似乎都比较简单,具体要求参考自己学校的往年转博条件哈,一般学硕转博都是本校本学院内部的,但首要条件是你准备转博的导师有转博名额。所以硕转博最重要的是找到导师。
希望我的回答对你有所帮助!
张教授的研究领域包括材料的机械性能、微观力学/纳米力学、微结构与材料性能的关系、铁电和压电材料、薄膜、纳米线及纳米管、微桥/纳米桥实验、扩散与相变。从事材料力学性质的研究。预测并证实了钢铁扭转和剪切载荷下的氢脆现象。澄清了电绝缘裂纹面上电边界条件,发展了压电线性和非线性断裂力学;实验证明导电裂纹的电断裂韧性为材料常数,构筑了电致断裂的理论框架。发展了微观/纳观力学:建立了微/纳桥测试理论和方法及薄膜/基体系统中产生位错、微/纳孪晶和裂纹的临界厚度理论;给出了应力腐蚀中裂纹、腐蚀膜和位错交互作用的理论解。曾获国家自然科学二等奖二次、香港裘槎高级研究学者奖、美国ASM International Fellow奖和中国科学技术协会青年科技奖。 张教授以第一作者及联合作者身份共发表140多篇SCI学术论文。在断裂力学,微观、纳观力学和材料的氢致开裂等领域取得了多项创新性成果,拥有两项美国专利和一项国家专利,获两次国家自然科学二等奖(1987和2007年度),2001年获得美国ASM International Fellow,2003年获香港裘槎高级研究学者奖。收到过5张SCI贺卡和1张Elsevier贺卡,祝贺其论文引用次数名列本领域前1%。 组织并主持三次国际学术会议,包括首次在中国召开的第八届国际断裂基础大会。特邀为Mechanics of Material,International Journal of Fracture,Engineering Fracture Mechanics,Composites Science & Technology等学报编辑了八期特刊。其中在香港科技大学完成的4篇代表性学术论文,截至2008年12月30日,SCI引用次数分别达到245,180,147和134次。参与撰写三本著作。获得2项美国专利。并受邀在国际、国内学术会议上做大会特邀报告32次。2002年被中国教育部《面向21世纪教育振兴行动计划》“聘请世界著名学者项目”聘请,2001年获美国ASM International Fellow Award,1988年获中国科学技术协会青年科技奖,1987年获中国国家自然科学二等奖(十获奖人中排第三)。
你好,科大学校规定并没有论文发表的要求,但是你一定要在自己的领域里做出行业承认的建树才可以。总体难度应该是远超凑够多少篇SCI才能毕业的规定的。我就是香港科大的在读博士生,如果你满意我的回答,请尽快采纳,谢谢。
陈光浩(Guang-Hao CHEN)博士,现任香港科技大学土木工程系终生教授、环境工程专业主任、环境工程研究生课程主任,浙江大学、中山大学客座教授,香港特区政府污水处理工程技术顾问,国际水协(IWA)污泥处理专家委员会课题组成员,国际水协水力学会(IAHR)下水道联合专家委员会理事,《Water Research》副主编,《IWA Journal:AQUA》亚太区编委,《Water Science & Technology》专辑主编,《Water Science & Technology: Water Supply》专辑主编,《International Journal of Pollution and Environment》特邀主编,清华大学环境科学与技术学刊特邀编委。多年来出版学术专著/论文集12册,发表学术论文125篇,包括SCI论文51篇(其中26篇发表在《Water Research》等环境学科一流刊物上),EI论文5篇,获美国、英国、新加坡发明专利共3项,获日本政府、三菱公司、香港研资局、香港渠务署等研究项目近40项。E-mail: ceghchen@ust.hkTel.: (852) 2358-8752--------------------------------------------------------------------------------Current Research InterestsSustainable decentralized sewage treatment systems 可持续性非集中式城市污水处理新系统Excess sludge minimized activated sludge processes 活性污泥法剩余污泥减量方法Biofilm, denitrification and corrosion control in sewer 污水管道中污染物转化及生物膜Micro-pollutant degradation in membrane bio-reactor (MBR ) and low-cost MBR system development 膜生物处理Re-use of water treatment works sludge in sewage treatment works and phosphorus adsorption on aluminium hydroxide 自来水厂污泥在城市污水处理厂之利用及磷之吸附Courses TaughtCIVL 142 Introduction of Environmental Science and EngineeringCIVL 242 Water and Wastewater EngineeringCIVL 344 Solid Waste ManagementCIVL 345 Environmental Analysis of Aqueous SystemsCIVL 346 Process Design of Environmental Engineering FacilitiesCIVL 542 Biological Waste TreatmentCIVL 543 Aquatic ChemistryCIVL 544 Process Design of Water and Wastewater Treatment SystemsCIEM 548 Wastewater Treatment and ReusePublication (2003~)Book/ Book Chapter/Journal IssueG. H. Chen, J. C. Huang, C Shang, H. H. P Fang, and Y. Watanabe (2004). Editor of the Special Issue of Creative Water and Wastewater Treatment Technologies for Densely Populated Urban Areas. Water Science and Technology: Water Supply. Vol., 04, No. 01, 166 pages.X. H. Guan, G. H. Chen, and C. Shang (2004). ATR-FTIR and XPS study on the structure of complexes formed between simple organic acids and aluminium hydroxide. In: Young Researchers 2004 (ed by P Lens and R Stuetz), Water and Environmental Management Series, IWA publisher, 2004.G. H. Chen, C. Shang, and X. R. Zhang (2006). Editor of the Special Issue of Leading-edge Strategies and Technologies for Sustainable Urban Water Management. Water Science and Technology: Water Supply. Vol., 06, No. 06, 183 pages.G. H. Chen. Water Reuse in Asia. In: International Survey of Water Reclamation and Ruse, edited by B. Jimemez and T. Asano, IWA publisher (in press).G. H. Chen and J. H. Qu (2007). Editor of the Special Issue of Research and Development of Environmental Science and Technology in China, International Journal of Pollution and Environment (in preparation).Invited Overseas Conference/Workshop Presentations/Guest LecturesG. H. Chen (2004). Novel approaches to reduce excess sludge in activated sludge processes. Hokkaido University Centre of Excellence (COE) Lectures on Environmental Biotechnology, Sapporo, Japan, July 07, 2004.G. H. Chen and Chii Shang (2004). Comparison of performance of MBR in treating freshwater and seawater sewage and evaluation of virus rejection. Hokkaido University COE Workshop on Membrane Bioreactor, Sapporo, Japan, July 12, 2004.D. H. W. Leung, K. R. Sharma, and G. H. Chen (2004). Effect of detached/re-suspended solids from sewer sediment on the sewage phase bacterial activity. Keynote presentation at IWA Sponsored International Symposium on Biotechnology for Environmental Pollution Control, Beijing, China, August 14-15, 2004.G. H. Chen (2005). Applications of MBR/MF/RO in sewage reuse/recycle. Hokkaido University COE workshop on MBR, Sapporo, Japan, June 11, 2005.G. H. Chen (2005). Pilot studies of membrane technology for effluent reuse. International Conference on Nanotechnologies and Advanced Materials. Hong Kong, August 8-10, 2005.G. H. Chen (2006). Modelling of biotreatment-Theory and practice. Hokkaido University COE Lectures on Environmental Biotechnology, August 03, 2006.G. H. Chen (2006). Reuse of alum sludge in sewage treatment and phosphorus/Nom adsorption on aluminum hydroxide, Hokkaido University COE Lectures on Environmental Biotechnology, August 03, 2006.G. H. Chen (2006). Is biofilm formation the key player in bio-fouling of MBR? 1st IMECT, Sapporo, 18 August 2006, Japan.Journal PapersS. Saby, M. Djafer, and G. H. Chen (2003). Effect of low ORP in anoxic sludge zone on excess sludge production in an oxic-settling-anoxic activated sludge process (OSA process). Water Research, 37(1), pp.11-20.Y. Chen, Y. Zhang, and G. H. Chen (2003). Appropriate conditions for maximizing catalytic reduction efficiency of nitrate into nitrogen gas in groundwater. Water Research, 37(10), pp. 2489-2495.G. H. Chen, D. H. K. Leung and J. C. Huang (2003). Biofilm in the sediment phase of a sanitary gravity sewer. Water Research, 37(11), pp.2784-2788.G. H. Chen, M. T. Wong, S. Okabe, and Y. Watanabe (2003). Dynamic response of nitrifying activated sludge batch cultures to increased chloride concentration. Water Research, 37(13), pp.3125-3135.G. H. Chen, K. J. An., S. Saby, E. Brois, and M. Djafer (2003). Possible cause of excess sludge reduction in an oxic-settling-anoxic activated sludge process (OSA Process). Water Research, 37(16), pp.3843-3864.X. H. Guan, Shang C, S. M. Yu, and G. H. Chen (2004). Exploratory study on reuse of water treatment works sludge to enhance primary sewage treatment. Water Science and Technology: Water Supply, 04(1), pp.159-164.G. H. Chen and M. T. Wong (2004). Impact of increased chloride concentration to nitrifying activated sludge process. Journal of Environmental Engineering, ASCE,130(2), pp.116-125.Y. Chen, Y. Zhang, G. H. Chen, and K. R. Sharma (2004). Hydrogen-based catalytic ceramic membrane for removing nitrate in groundwater. Environmental Technology, 25, pp.227-234.X. H. Guan, Q. Liu, G. H. Chen, and C. Shang (2005). Reuse of water treatment works sludge to enhance particulate pollutant removal from sewage. Water Research, 39(15), pp.3433-3440.X. H. Guan, Q. Liu, G. H. Chen, and C. Shang (2005). Surface complexation of condensed phosphate to aluminium hydroxide: An ART-FTIR spectroscopic investigation. Journal of Colloid and Interface Science, 289(2), pp.319-327.M. H. Wong, C. Shang and G. H. Chen (2005). Bacteriophage MS-2 Removal by Submerged Membrane Bioreactor. Water Research, 39 (17), pp.4211-4219.D. H. W. Leung, G. H. Chen and K. R. Sharma (2005). Effect of attached/re-suspended solids from sewer sediment on sewage phase bacterial activity. Water Science and Technology, 52(3), pp.147-152.X. H. Guan, G. H. Chen, C. Shang, and J. Zhu (2005). ATR-FTIR Investigation on the Complexation of Myo-inositol Hexaphosphate with Aluminum Hydroxide. Journal of Colloid and Interface Science, 293(2), pp. 296-302.X. H. Guan, G. H. Chen, and C. Shang (2006). Competitive Adsorption of organic matter with phosphate on aluminum hydroxide. Journal of Colloid and Interface Science, 296(1), pp.51-58.G. N. Lau, K. R. Sharma, G. H. Chen and M. C. M. van Loosdrecht (2006). Integration of sulfate reduction, autotrophic denitrification and nitrification to achieve low-cost excess sludge minimization for Hong Kong sewage. Water Science and Technology, 53(3), pp.227-235.H. L. S. Tam, D. T. W. Tang, K. R. Sharma and G. H. Chen (2006). A pilot study of a membrane bio-reactor in treating fresh water sewage and saline sewage in Hong Kong (invited paper). Separation Science and Technology, 41 (7), pp.1253-1264.S. Y. C. Lee, L. M. Wang, Y. Xue, N. Ge, X. Yang, and G. H. Chen (2006). Natural estrogens in the surface water of Shenzhen and the sewage of Hong Kong. Human and Ecological Risk Assessment, 12(2), pp.301-312X. H. Guan, G. H. Chen, and C. Shang (2006). Combining kinetic investigation with surface spectroscopic examination to study the role of aromatic carboxyl groups in NOM adsorption by aluminum hydroxide. Journal of Colloid and Interface Science, 301, pp.419-427.X. H. Guan, C. Shang and G. H. Chen (2006). ATR-FTIR investigation on the role of phenolic groups in the interaction of NOM with aluminum hydroxide. Chemosphere, 65, pp.2074-2081.H. L. S. Tam, D. T. W. Tang, K R Sharma and G. H. Chen (2006). A pilot study for sewage reclamation and reuse with MBR/RO and MF/RO systems. Desalination. 202 (1-3), 106-113.X. H. Guan, G. H. Chen, and C. Shang (2006). Role of carboxylic and phenolic groups in NOM adsorption on minerals: a review. Water Science and Technology: Water Supply. 6(6), 155-164.G. H. Chen and S. K. Pang (2006). Development of a low-cost dynamic filter immersed in activated sludge system. Water Science and Technology: Water Supply. 6(6), pp.111-117.An. K. J. and G. H. Chen. A COD balance analysis of an oxic-settling-anaerobic activated sludge process. Journal of Environmental Engineering, ASCE (attentively accepted).X. H. Guan, G. H. Chen, and C. Shang. Competitive adsorption of phosphorus on aluminum hydroxide. Water Science and Technology (in press).International Conference Papers (Referred oral presentations only)X. H. Guan, C. Shang, and G H Chen (2003). Competitive adsorption of reactive, condensed, and organic phosphate on aluminum hydroxide. IWA-ASPAC 2003 Conference, October 13-18, 2003, The Philippines.D. H. W Leung and G H Chen (2004). Effect of detached/re-suspended solids from sewer biofilm on the oxygen uptake of sewage phase in a sewer. IWA 1st Asian Junior Scientist Workshop on Sewer Network Processes & Urban Drainage, 7-10 February 2004, Malacca, Malaysia.X. H. Guan, G. H. Chen, and C. Shang (2004). ATR-FTIR and XPS studies on structure of complexes formed between simple organic acids and aluminum hydroxide. The 2nd Young Researchers Conference, May 3-4 2004, Wageningen, The Netherlands.H M Wong, C Shang, and G. H. Chen (2004). Factors affecting virus removal in a membrane bioreactor. IWA Specialized Conference on Water Environment Membrane Technology (WEMT 2004), June 7-10 2004, Seoul, Korea.D H. W Leung, G. H. Chen and K R Sharma (2004). Effect of attached/re-suspended solids from sewer sediment on sewage phase bacterial activity. The 4th IWA Specialized Conference on Sewer Processes and Networks. November 22-24, 2004, Funchal, Portugal.X. H. Guan, G. H. Chen, and C. Shang (2004). Competitive adsorption of phosphorus on aluminum hydroxide. The 4th World Water Congress, 19-24 September 2004, Marrakech, Morocco.H L S Tam, D T W Tang, G. H. Chen, C Shang, K M Ho and K R Sharma (2004). A Pilot study on the performance of an membrane bio-reactor in treating fresh water sewage and saline sewage in Hong Kong. The 4th World Water Congress, 19-24 September 2004, Marrakech, Morocco.X. H. Guan, G. H. Chen, and C. Shang (2004). Spectroscopic investigation of the interaction of pyromellitate with aluminum hydroxide. The 228th American Chemistry Association National Meeting, August, Philadelphia, USA.H M Wong, C Shang, and G. H. Chen (2004).Membrane bioreactor for wastewater treatment and reuse: virus rejection. European Symposium on Environmental Biotechnology, April, Oostende, Belgium.H W D Leung, G. H. Chen, T. Ito, S Okabe, and Y. Watanabe (2004). Comparison of community structure of sulfate-reducing bacteria and their roles in carbon mineralization in sewer biofilms growing under aerophilic and microaerophilic conditions. IWA Specialized International Conference on Biofilms 2004, 24-16 October, 2004, Las Vegas, Nevada, USA.G. N. Lau, K. R. Sharma, G. H. Chen and M. C. M. van Loosdrecht (2005). Integration of sulfate reduction, autotrophic denitrification and nitrification to achieve low-cost excess sludge minimization for Hong Kong sewage. The 3rd IWA Leading-edge Conference on Water and Wastewater Treatment Technologies, 6-8 June 2005, Sapporo, Japan (orally presented at the Workshop on Sludge Management).A. Lau, D. H. W. Leung, and G. H. Chen (2005). Study of Hydrolysis of Particulate Organics in Gravity Sewer. 1st IWA-ASPIRE Conference, 10-15 July, 2005, Singapore.G. N. Lau, K. R. Sharma, and G. H. Chen (2005). Autotrophic denitrification utilizing dissolved sulfides produced during anaerobic treatment of sulfate containing wastewater. 1st IWA-ASPIRE Conference, 10-15 July, 2005, Singapore.H. L. S. Tam, D. T. W. Tang, K R Sharma and G. H. Chen (2005). A pilot study for sewage reclamation and reuse with MBR/RO and MF/RO systems. The 5th International Symposium on Wastewater Reclamation and Reuse Sustainability, 8-11 November, 2005, Korea.F. Jiang, D. H. W. Leung, S. Y. Li, and G. H. Chen (2006). Use of genetic algorithm as an efficient tool to calibrate ASM3-based sewer process model. The 2nd IWA Specialized International Conference on Sewer Operation and Maintenance (SOM 06), October 24-28, 2006, Vienna, Austria.Selected Professional ActivitiesInternationalIssue Editor of Water Science & Technology (2000)Issue Editor of Water Science & Technology: Water Supply (2004, 2006)Associate Editor of Water Research (2005-2009)Editorial board member of IWA Journal of Water Supply: Research & Technology (AQUA) (2006~)Task Committee Member of the IWA Sludge Management Specialist Group (2004~)Management Committee Member of the IWA/IAHR Joint Working Group on Sewer Systems & Process (2004~)Organizer and Chairman, IWA Sponsored International Symposium on Development of Innovative Water and Wastewater Treatment Technologies for the 21st Century, 8-10 October 1999, Hong Kong.Organizer and Chairman, IWA Sponsored International Specialized Conference on Creative Water and Wastewater Treatment Technologies for Densely Populated Urban Areas, September 18-20 2002, Hong Kong.Regional Organizing Committee Member of the 3rd IWA Leading-edge Conference on Water and Wastewater Treatment Technologies, 6-8 June 2005, Sapporo, Japan.Organizing Committee Member of IWA Chemical Industries 2005, July 14 -16 2005, Tsukuba & Kashima, Japan.Session Chairman, the 4th Japan-Netherlands Workshop on Integrated Water Quality Management”, October 9-11, 2000, Japan.Session Chairman, the 1st IWA-ASPIRE conference, July 10-15, 2005, Singapore.Organizing and Program Committees Member of the 2nd IWA Conference on Sewer Operation and Maintenance (SOM06), 26-28 October, 2006, Austria.Director of the Croucher Foundation Advanced Study Institute: Leading-edge Strategies and Technologies for Sustainable Urban Water Management, September 16-20, 2006.Director of the Croucher Foundation Advanced Study Institute: Sustainable Water Resources and Water Quality Management (tentative). 2007/2008.Director of the Croucher Foundation Advanced Study Institute: New concepts and innovations towards Energy and Resources Reduction and Recovery in Wastewater Treatment (tentative). 2007/2008.National and LocalCo-organizer, the 1st Forum of China Young Leading Scholars in Environmental Science & Engineering, June 19-22, 2001, Shenzhen.Organizer of a special tailor-made training course on modelling biotreatment processes for the Drainage Services Department, January 18-20, 2005, Hong Kong.Organizer of a half-day special seminar on Small Scale Sewage Treatment Technologies for the Drainage Services Department, 1999, Hong Kong.Organizer of a one-day special workshop on Leading-edge Water and Wastewater Treatment Technologies and Effluent Reuse and Recycling Practices in Japan (with Professor Y. Watanabe) on September 07, 2005, Hong Kong.Editorial Committee Member of Journal of Environmental Science and Engineering, Tsinghua University, China (2005~).Editorial Committee Member of Frontiers of Environmental Science & Engineering in China-Selected Publications from Chinese Universities, an English journal published by the China Higher Education Press and distributed by Springer-Verlag publisher (2006~).Organizer of a one-day special workshop with the IWA Hong Kong Chamber on Regulations, Technologies, and Risk Assessment in Wastewater Reclamation and Reuse, September 18, 2006, Hong Kong (with Professors T. Asano, G. Amy, S. Matsui, J. Rose).Adjunct Professor of Zhejiang University (2002~).Independent Director of EcoWater Co. (listed in Singapore) (2004-2006).Independent Technical Checker to Mitsubishi Rayon Group (2003).Consultant to the HKSAR Government.Post-graduate Students Supervision at HKUST3 PhD and 18 Master students have been graduated under my supervision/co-supervision. Currently supervising 6 Master and 4 PhD students.Research GrantTotal research money acquired so far from HKRGC, DSD, ECF, HKUST, Croucher Foundation, and industries: ~13 M HK$.
1、直博是直接攻博的简称,是博士招生方式之一(统考招生、硕博连读、提前攻博、直接攻博)。只能从校内外推荐免试攻读硕士学位的优秀应届本科毕业生中选拔,招生专业一般应为国家重点学科。简而言之,就是本科生直接读博士学位。直博一般4-5年。2、如果不直博,先读硕士再读博士,一般需要6年时间。而直博,本科毕业后拿到博士学位只需要4~5年。在中国学术界,年轻就是资本。很多针对青年人的人才计划都有年龄限制,如果拿到博士学位时年龄大了,会被用人单位认为缺乏发展潜力和利用价值,以后参评人才计划也不占优势。直博的第二个好处是可以把直接攻博的4~5年时间作为一个整体,安心做一个课题,进行深入和系统的研究,得到高质量的成果。而如果先读硕士再读博士,往往做两个不同的课题。特别是读硕士期间,第一年要上课,最后一年忙着撰写硕士论文、答辩、考博,做科研的时间非常有限。在这样紧张的时间内,为了快速发表文章确保硕士毕业,很多师生不得不选择做“短、平、快”的科研题目,并且把科研论文“贱卖”给“一投就中”的低档次刊物。反之,到了硕士快毕业时都没有科研论文发表,无论是学生还是导师都“鸭梨山大”。直博的第三个好处是,有便于通过博士论文评审。博士生毕业前夕,所在学校的研究生院把他们的博士论文送到外校,请同行专家进行“双盲”评审。所谓“双盲”,就是博士生不知道评审专家是谁,评审专家也不知道手头这本博士论文是谁写的。博士论文的封面上注明完成的年月,并不注明写作者是普通的3年制博士生还是5年制直博生。显然,读5年写出来的博士论文比读3年写出的博士论文更加“丰满”,因此更容易通过评审进而被评为优秀。从指导教师的角度来说,显然更愿意优秀学生直博。这不单单是因为以上几点好处,还因为:直博生在课题组待4~5年时间,一开始花很多时间熟悉实验室设备和学校各种规章制度,“熟门熟路”后,越往后为导师和课题组创造的价值也越大,不但能自己产出科研论文,还能指导师弟、师妹。这样导师就省心了。
是说的硕博连读吗?硕博连读的话每个学校的条件不一样,一般也是需要托福90左右,gre或者gmat成绩,有研究计划,美国硕博连读是5年
直博一个学期最少发表3篇论文。基础研究:在读期间以第一作者身份发表至少2篇SCI索引学术论文,影响因子总和大于3。直博研究生需以第一作者身份发表论文影响因子总和大于4。工程研究:在读期间以第一作者身份发表1篇以上SCI索引学术论文,影响因子总和大于2。直博研究生需以第一作者身份发表论文影响因子总和大于3。
直博很难。需要本科期间获得很多奖项,还有发表论文以及成绩十分优异。
硕博连读是先上硕士课程做硕士论文,如果硕士论文起点高质量好,可达到博士论文水平,就继续做博士学位论文,完成并通过评审和答辩后,授博士学位。
如果论文达不到博士的水平,可以申请硕士学位。直博是指在本科毕业前,不需要获得学士学位和硕士学位,并且不必参加博士研究生入学考试,经选拔直接获得攻读博士学位的资格。
直博的优势:
1.节约学习时间。通常比普通硕士生毕业再考博至少节省1年时间。博士是职场最难能可贵的资本。
2.提升学习效率。省略了考博的准备期,不必把时间花在很多不必要的复习工作上,可以专心研究专业。
直博的劣势:
1.博士毕业风险。如果研究能力较弱的学生可能存在博士论文长期通不过的风险,但如果论文达不到博士的水平,可以申请硕士学位。
2.博士就业风险。普通本科、硕士毕业一般能胜任企业普通职位,但博士就业一般适合企事业单位中、高层职位,或留在高校或科研机构从事研究工作,因此就业面比本科、硕士窄。
研函[2022]085号各培养单位: 为保障2022年秋季学位授予工作平稳有序进行,根据学校工作安排,对研究生学位论文评阅、答辩、学位申请等相关工作安排通知如下:一、博士学位论文答辩及申请学位1、申请秋季学位的博士答辩截止时间为2022年9月19日。2、答辩时间晚于截止时间者可下一批申请学位。二、硕士学位论文盲评、答辩及申请学位1、校内盲审:所有申请授位的硕士(全部类型)学位论文,均须参加校内盲审(二份)。(1) 硕士生必须在“研究生教育管理系统”中“学位管理”完成“论文评阅”之前的各项环节后方能提交论文进行校内盲审。(2)各学院于9月8日前(含当天)提交《2022年秋季预毕业硕士生学科方向信息表》,见附件1),审核通过后由学院统一将论文上传到硕士学位论文盲评系统。(注:已提交校内盲审论文者不用再交)(3)学术型硕士校内盲审成绩由学位办统一录入。专业学位硕士论文须按规定另送一份校外明评,成绩由导师和学生录入研究生教育管理系统,校内盲审成绩通过(B及以上)后由学位办从二份中择优录入系统;评阅成绩齐全后,导师对评阅成绩录入和论文修改情况统一审核。2、校外抽盲:(1)未在申请夏季授位硕士抽盲范围名单中的学生均须参加校外盲审,往期抽盲未交者仍须提交盲审论文。(2)各学院于9月8日前(含当天)将填写好的《硕士论文校外盲审信息采集表》(命名:论文盲审信息采集表_学号,见附件2)、硕士盲审论文(PDF格式)和论文摘要(TXT格式)压缩包,发邮件至。(注:已提交校外盲审论文者不用再交)(3)盲审论文电子版内容不得出现任何透露本文作者和导师姓名的信息内容。在校期间发表学术论文以第*作者+论文题目+发表论文出处的方式体现,“*”代表“一、二、三”等,并将致谢略去。提交的论文电子版要求为PDF格式,命名:10007_二级学科代码_学号_LW。摘要为TXT格式,命名:10007_二级学科代码_学号_ZY。(4)申请秋季授学位的硕士集体答辩截止时间为2022年9月19日。硕士论文由导师、学科、学院严格审核,学生必须参加学院组织集体答辩。(5)实行预授位制度,答辩前校外抽盲结果未出者,可先行答辩。学位证书发放前抽盲结果须合格,参照《北京理工大学关于硕士学位论文匿名评阅的规定》(校学位[2017]07号)。三、学位申请材料提交时间及学位会安排1. 各学院于2022年9月20日下班前将申请学位材料报送相应学位评定分委员会。2. 秋季各学位评定分委员会、校学位会预计于2022年9月23-29日召开。四、硕士论文审核工作要求1. 请所有单位高度重视硕士学位论文审核工作,按照时间节点和评阅要求,高质量完成任务。2. 请各单位对硕士学位论文严格执行100%查重,重点关注非全日制研究生的学位论文质量,研究生院将对申请学位的论文开展查重的核查工作。3. 请各单位对论文答辩后的修改工作进行严格审核,把好最后质量控制关,确保不出现不合格论文。4. 实行责任追究制度,在北京市硕士学位论文抽检出现不合格的,将停止导师招生2年,减少学院招生计划,并对学院年终绩效考核予以扣分。如有问题,请与学位与学部办公室(研究生楼219/220)联系,联系方式如下:学位论文盲审:程璐,, 1207;机械与运载分会:赵宁,,8580;信息与电子分会:王鹏,,1644;理学与材料分会:杨正光,,1990;人文与社科分会:曹珊珊,, 8522;校学位办公室:杨婷婷,, 3873。研究生院学位与学部办公室2022年9月6日
是说的硕博连读吗?硕博连读的话每个学校的条件不一样,一般也是需要托福90左右,gre或者gmat成绩,有研究计划,美国硕博连读是5年
申请美国直博条件----部分理工专业可申请去美国自费读研的学生比较多,这是因为美国对研究生阶段的奖学金较少,美国较注重本科教育,但是部分理工科专业可以直接申请读博,学制5年,与研究生相比,博士阶段更容易申请奖学金。申请美国直博条件----需在期刊发表相关论文想申请美国读博需要在期刊发表相关论文,美国博士学位的培养目的是塑造研究型人才,课程设置偏理论,内容比较深入,未来就业目标为专业的研究学者,所以学习过程较为枯燥和漫长,没有清晰的职业规划和强烈的专业兴趣支撑可能很难坚持完成,所以学生在申请时应该慎重,不能为了想获得博士学位而去盲目申请,本身应对自己所研究的领域感兴趣。申请美国直博条件----成绩要求大学在校成绩平均85分,托福85分,需要考GRE,商科专业需要考GMAT,所以有这方面想法的学生应早早开始规划自己的留学路。申请美国直博条件----需从事过相关项目研究申请读博,除了在期刊发表过相关论文外,美国导师更看重学生是否从事过相关领域的研究。这一项常常被国内的学生所忽略,而最近他们帮忙申请的学生则有数学方面的相关经验,对数学的痴迷吴同学由于经常研究一些数学建模问题,并在大赛中获奖,所以很容易就成功申请了直接读博。学生帮助老师一些课题研究或者出版图书也会在竞争中加分。所以,有去美国读博打算的学生应早早开始准备。从大二左右开始最好,先准备语言考试,有计划的在校内或者校外从事相关领域的项目研究。
1-3篇。
考博士要发表几篇论文硕士考博士生来说通常是优先以学校文件要求为准,一般情况下,在论文发表需要1-3篇都能够。要注意论文的发表和论文的研讨价值等信息。
一般来说传统工科、文学类的专业都比较难发文章,因为真的工科做实验、文科一些专业调研还是需要一定的实验周期的,但是像化学、材料、生物类的就相对好发文章一些。这些专业的博士平均论文数量还是比其他专业要高一些的。
考博注意事项
首先选择学校和专业。可以选择水平高的院校和研究院,这个要看个人兴趣。
联系博士导师,先确定是否可以报名。这个是必须要去做的,因为每年一个博士招生导师只有一个名额。如果是当年研究组上的研究生有直博的,那相当于就没有了名额。
找到历年考试真题。真题尤为重要,一个学校或者研究所的考试题型在短时间内肯定是不会更改的。找到真题,自己的复习难度肯定下降。