请教下:这本科简历为什么打动了发考题??# Faculty - 发考题
R*e
1 楼
得到博士offer的本科生简历(挂网公开的,应该可以讨论把)在下面,先只请教下打动
发考题们给了博士offer的原因,别的不八卦:)哈哈
照说本科生得让发考题们认为极其有科研的潜质,才能打败无数硕士生,发考题们才
会直接给本科生offer直攻博士;
看这份简历,我的感觉是
1.本科成绩好,会读书
2.参加了很多国内老师的项目,参加了一些海外老师的暑期短期项目,有些学术锻炼和想
法,但无明显成果,可能人缘好,会来事;但不排除夸大自己作用的可能
3.得了一些奖学金,国内高校基本上成绩好加积极参加学校各项活动,对老师会来事,自
然就能得.
3.英语写的好
4.积极参加各种活动,精力充沛,勤奋,把自己的时间,安排的满满当当的,有废寝忘食的
倾向.
5.非常有计划性和目的性,经过几年奋斗,作为本科学生,已经达到面面聚到的无短板程
度.
作为本科生,这份简历无疑是优秀的;但是却无法直接得出极其有科研的潜质的结论;相
反无数硕士生申请攻博士,由于年龄大一些和工作经历,也许本科成绩绩点低一些,得的
奖学金项目少一些,但是有实践经验,多数还会有1-2篇海外(尽管可能级别和影响不高)
期刊发表的文章证明自己科研潜力.
那么问题来了:
1.为什么发考题们喜欢下面无明显科研成果的本科生简历,认为他极其有科研的潜质,给
了offer攻博士;因为面面聚到的无短板学习背景????????
2.为什么刚刚讲的无数硕士有1-2篇海外期刊发表的文章,反而无法证明自己科研潜力,
难以得到发考题们青睐直攻博士???一般而言,海外独立发文章,和本科生参加国内老师
的研究项目是不可同日而语的.
3.下面的本科生简历中大多参加的是国内老师的项目,人人都说中文期刊发表的论文,海
外发考题们是直接无视的;为什么这个本科生成功了???硕士有1-2篇海外期刊发表的文
章(尽管可能级别和影响不高),竞争不过这个本科生只是参加国内老师的项目?????硕士
的1-2篇文章太少 ????还是某一个学术方面的专长,竞争不过面面聚到无短板的学习背
景????
XXXXXXXXXXX
Education and Awards
2009 –
NANKAI UNIVERSITY TIANJIN, CHINA
Bachelor of Science in Physics (Condensed Matter Physics), June 2013.
Academic Record:
2009-2010: Overall: 93.40 Ranking 1/141 Major: 94.00 Ranking 1/141
2010-2011: Overall: 90.13 Ranking 2/141 Major: 89.27 Ranking 4/141
2009-2012: Overall: 89.85 Ranking 3/59 (Physics), 4/149(College)
•National Scholarship (2009-2010)
•Excellent Student in Morals, Academy and Sports of Nankai
University(2009-2010)
•Scholarship of Chinese Academy of Sciences (2010-2011)
•Member of Freshman Debate Team of Nankai University from 2009
to 2010
•Original and Current Student in Po-ling Class1
Research Experience
03/13-05/13 BACHELOR DEGREE THESIS RESEARCH, SCHOOL OF PHYSICS, NANKAI
UNIVERSITY
TIANJIN,CHINA
Under the supervise of Prof. ZHANG Lixin
Research on the thesis ”First principle study of phosphorous incorporation
in (111) and (001) crystal surfaces of diamond”
•Used first principle method to investigate the formation
energy of single phosphorous atom
incorporation on (111) and (001) crystal surfaces of diamond with VASP codes
. (Built models in Materials Studio 5.0)
•My calculation results show the trend that incorporation in (
111) is much harder than that in (001) due to the comparison of formation
energy of the two crystal surfaces. Due to machine time limit, only these
two situations are studied. More situations with different incorporation
positions and multi-atom incorporation should be considered to confirm a
conclusion of the inferior of the (111) crystal surface in Phosphorous
incorporation.
07/12- 09/12
PROF. HOUK’S GROUP, DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY, UCLA
LOS ANGELES, USA
Under the supervise of Prof. Kendall N.Houk, as a CSST2 (Cross-disciplinary
Scholarship in Science and Technology) student
Worked with Dr. LIU Peng on the project “Computational Modeling of Wrapping
of Nanotubes by Conducting Polymers”
•Performed DFT(Density Functional Theory) calculation of
binding energy of complex of polymer and SWNT and did energy decomposition
analysis using Q-Chem. We try to explain the selectivity of poly (
dithiafulvalence-fluorene-co-m-thiophene)s wrapping on sc-SWNTs (
semiconducting Single-Walled Carbon Nanotubes) using DFT calculation.
•My calculation has revealed the role of side chains in the
wrapping process is significant and the diameters of SWNTs is more crucial
in the selectivity of wrapping than the electronic structures of SWNTs (
whether it is semiconducting or metallic, or say only the electronic types
are not enough to determine the selectivity), which is innovative and even
contradicts the previous work3.
03/12-04/12
MODERN PHYSICS LABORATORY, SCHOOL OF PHYSICS, NANKAI UNIVERSITY
TIANJIN, CHINA
Under the supervise of Dr. NIU Ziping
Worked on an experiment “Scanning Tunneling Microscope (STM) Tip
Construction and Imaging of Graphite Surface”
•Constructed STM tips by electrochemical etching of Tungsten
wire.
•Diagnosed and repaired the faults in piezoelectric ceramic
driver circuit when our STM (Ds-89s, Peking University) didn’t worked
during our experiments.
•Operated STM to image the surface of graphite standard sample
and analyzed the images of graphite surface.
10/11-12/11 CONDENSED MATTER THEORY AND MATEIRALS CALCULATION GROUP,NANKAI
UNIVERSITY
TIANJIN, CHINA
Under the supervise of Prof. ZHANG Lixin
Worked with a graduate YAO Xiaolong, on the Project “Tuning the Boron
Incorporation Features in Diamond Films: ab initio Calculations”
•Performed DFT calculation on the chemical potential of Boron
simple substance using VASP as part of the calculation for the formation
energy for Boron monomers and dimers defects formed at (100) and (111)
crystal surfaces with different hydrogen coverage.
•Investigated the relationship of the formation of Boron
defects (monomers & dimers), hydrogen coverage, and doping locations (
different crystal surfaces).
07/11 RESEARCH AND DEVELOPMENT CENTER FOR FUNCTIONAL CRYSTALS, THE INSTITUTE
OF PHYSICS, CHINESE ACADEMY OF SCIENCES
BEIJING, CHINA
Under the supervise of Dr. CHEN Xiaolong, Professor and Director of
Research & Development Center for Functional Crystals at the Institute of
Physics, Chinese Academy of Sciences (IOP, CAS).
Worked with a graduate WANG Shunchong on SiC crystal growth using Physical
Vapor Transport method (PVT).
•Learned to conduct SiC crystal growth using PVT
•Analyzed the reasons for the formation of defects of the
crystal I grew
04/11-03/12
THE KEY LABORATORY OF WEAK LIGHT NONLINEAR PHOTONICS, MINISTRY OF EDUCATION,
NANKAI UNIVERSITY
TIANJIN, CHINA
Under the supervise of Prof. WANG Huitian, Dean of School of Physics
Worked with three other classmates on the project “Properties of Second-
Harmonic Wave Induced by
Femtosecond Vector Beams” as 100 Creative Projects for Undergraduate
Students of Nankai University.
•Did computational simulation of the second-harmonic wave
patterns of tight-focused vector beams passing a ZnSe crystal using MatLab.
11/10-01/11
“INNOVATIVE SELF-DESIGN EXPERIMENTS” PROGRAM OF PO-LING CLASS (PROJECT OF
ELITE STUDENTS CULTIVATION FOR FUNDAMENTAL DISCIPLINES, MINISTRY OF
EDUCATION), NANKAI UNIVERSITY
TIANJIN, CHINA
Under the supervise of Assistant Engineer HUI Wangwei
Designed and did experiments on “The Manufacture of Simple Circuit and the
Performance Test of Piezoelectric Ceramics using Michelson Interferometer”
•Learned circuit welding
•Designed and welded a D.C. regulated power supply using
bridge rectifier circuit, capacitor filter and LM317 constant control
circuit. Our circuit can convert 220V commercial power into D.C. regulated
power which is able to be tuned from 5V to 25V.
•Set up a Michelson Interferometer to measure the displacement
of piezoelectric ceramics.
•Combined a Light Power Meter, a Michelson Interferometer and
the D.C. regulated power circuit with piezoelectric ceramics into a system
to accurately measure the displacement of piezoelectric ceramics and curve
fit the relationship of displacement and voltage added on the piezoelectric
ceramics.
Research in
Class4
In Electromagnetics, I did a project “Using Imaging Method to Simulate the
Electrostatic Field Distribution in the System of Two Charged Conducting
Spheres”, I used mirror charge method to simulate the electrostatic
potential of two charged conducting spheres and three charged conducting
spheres using Mathematica.
In Optics, I self-designed, modified or improved nine optical experiments to
investigate optical problems like measuring refractive index with different
methods, generation of optical vortex by dislocations produced by a pair of
flat mirrors, generation, detection of elliptical polarized beam and
measuring the principle axis etc.
In Solid State Physics, I did a project “Tight Binding Method in
Calculating the Electronic Properties of Graphene”. I used tight binding
method to calculate band structure of graphene using
MatLab and compared the results with DFT calculation using Dmol3 in
Materials Studio 5.0.
Internship
07/11 RESEARCH & DEVELOPMENT CENTER FOR FUNCTIONAL CRYSTALS AT THE INSTITUTE
OF PHYSICS, CHINESE ACADEMY OF SCIENCES
BEIJING, CHINA
Crystal Growth internship.
Bulk growth of SiC crystals using Physical Vapor Transport method
Skills C++, Python, Linux, STM, circuit welding
MatLab, VASP, Materials Studio(Windows),
Q-Chem, Amber, Mathematica, Gaussian(Windows)
Activities
09/11 Attended the CPS 2011(2011 Fall Conference of Chinese Physics Society
)in
Zhejiang University, Hangzhou
06/11 Donated in “Pass the sympathy and help the need” activity in School
of Physics.
04/11 Chinese teacher of an American middle school student(daughter of my
English teacher)
10/10 Joined in the “Cup of Dean” Basketball Competition of School of
Physics; our team won the third place
09/10 Attended the CPS 2010 (2010 Fall Conference of Chinese Physics Society
) in Nankai University,Tianjin
06/10 Participated in the “College T-shirt Design”, designed T-shirt for
School of Physics
05/10 Joined in Tianjin College Mathematics Competition
03/10-06/10 Member of Debate and Eloquence Society, member of Freshman
Debate Team, learned basic debate skills. Member of Society of Karate,
learned the basic skills and etiquettes in Karate
12/09 Joined in a Chinese chess contest, as a part of Group Competition of
Chess between Nankai University and Tianjin University
11/09 Competed in the Debate Competition of Freshman and entered the
quarter-final, being selected on Freshman Debate team of Nankai University
10/09 Joined in the “Cup of Dean” Basketball Competition of School of
Physics
10/09-12/09 Did a Part-time job as a home mentor teaching Physics.
09/09-06/10 Secretary in Sports Department, Student Union of School of
Physics
09/08 Second prize in Chinese Mathematics Olympiad in Senior, the highest
score in Qinhuangdao
Third prize in National Physics Competition for High School Students.
1 Po-ling Class: also called Boling Class, founded in 2009 as part of
Project of Elite Students Cultivation for Fundamental Disciplines. Students
selected from ordinary programs make up this class and they have different
trainings in order to be future leaders in fundamental sciences. They have
special curricula and English classes taught by native speakers. There is a
competitive mechanism for students in this class. In each semester students
in this class are evaluated by their academic and research-related
performance and students whose performance are not well enough to be
qualified would be eliminated from this class and excellent students in
ordinary Physics program would be selected into this class. Usually one or
two students change would take place in a semester. Before entering the
junior year, there is a reselection among all the students in the class.
Currently, I am one the five original students surviving from the first
group of 25 students who were selected into this program when entering
Nankai University as freshmen.
2 CSST(Cross-disciplinary Scholarship in Science and Technology) is a summer
research program host by UCLA and CNSI(California Nanosystem Institute)
which selects excellent undergraduate students from nine top universities in
China(Peking University, Nankai University, Fudan University, USTC,
Zhejiang University, Xi’ an Jiaotong University, Nanjing University,
Shanghai Jiaotong University, Sichuan University) to do summer research at
UCLA.
3 Yosuke Kanai, and Jeffrey C. Grossman. Role of Semiconducting and Metallic
Tubes in P3HT/Carbon-Nanotube Photovoltaic Heterojunctions: Density
Functional Theory Calculations. Nano Lett., 2008, 8 (3), 908-912
4 Students in Po-ling Class have special curricula which require students to
do a course-related research project or investigation in nearly every major
course. The project results are usually exhibited by presentation or thesis
. It usually accounts a certain proportion of the final grades in the course.
发考题们给了博士offer的原因,别的不八卦:)哈哈
照说本科生得让发考题们认为极其有科研的潜质,才能打败无数硕士生,发考题们才
会直接给本科生offer直攻博士;
看这份简历,我的感觉是
1.本科成绩好,会读书
2.参加了很多国内老师的项目,参加了一些海外老师的暑期短期项目,有些学术锻炼和想
法,但无明显成果,可能人缘好,会来事;但不排除夸大自己作用的可能
3.得了一些奖学金,国内高校基本上成绩好加积极参加学校各项活动,对老师会来事,自
然就能得.
3.英语写的好
4.积极参加各种活动,精力充沛,勤奋,把自己的时间,安排的满满当当的,有废寝忘食的
倾向.
5.非常有计划性和目的性,经过几年奋斗,作为本科学生,已经达到面面聚到的无短板程
度.
作为本科生,这份简历无疑是优秀的;但是却无法直接得出极其有科研的潜质的结论;相
反无数硕士生申请攻博士,由于年龄大一些和工作经历,也许本科成绩绩点低一些,得的
奖学金项目少一些,但是有实践经验,多数还会有1-2篇海外(尽管可能级别和影响不高)
期刊发表的文章证明自己科研潜力.
那么问题来了:
1.为什么发考题们喜欢下面无明显科研成果的本科生简历,认为他极其有科研的潜质,给
了offer攻博士;因为面面聚到的无短板学习背景????????
2.为什么刚刚讲的无数硕士有1-2篇海外期刊发表的文章,反而无法证明自己科研潜力,
难以得到发考题们青睐直攻博士???一般而言,海外独立发文章,和本科生参加国内老师
的研究项目是不可同日而语的.
3.下面的本科生简历中大多参加的是国内老师的项目,人人都说中文期刊发表的论文,海
外发考题们是直接无视的;为什么这个本科生成功了???硕士有1-2篇海外期刊发表的文
章(尽管可能级别和影响不高),竞争不过这个本科生只是参加国内老师的项目?????硕士
的1-2篇文章太少 ????还是某一个学术方面的专长,竞争不过面面聚到无短板的学习背
景????
XXXXXXXXXXX
Education and Awards
2009 –
NANKAI UNIVERSITY TIANJIN, CHINA
Bachelor of Science in Physics (Condensed Matter Physics), June 2013.
Academic Record:
2009-2010: Overall: 93.40 Ranking 1/141 Major: 94.00 Ranking 1/141
2010-2011: Overall: 90.13 Ranking 2/141 Major: 89.27 Ranking 4/141
2009-2012: Overall: 89.85 Ranking 3/59 (Physics), 4/149(College)
•National Scholarship (2009-2010)
•Excellent Student in Morals, Academy and Sports of Nankai
University(2009-2010)
•Scholarship of Chinese Academy of Sciences (2010-2011)
•Member of Freshman Debate Team of Nankai University from 2009
to 2010
•Original and Current Student in Po-ling Class1
Research Experience
03/13-05/13 BACHELOR DEGREE THESIS RESEARCH, SCHOOL OF PHYSICS, NANKAI
UNIVERSITY
TIANJIN,CHINA
Under the supervise of Prof. ZHANG Lixin
Research on the thesis ”First principle study of phosphorous incorporation
in (111) and (001) crystal surfaces of diamond”
•Used first principle method to investigate the formation
energy of single phosphorous atom
incorporation on (111) and (001) crystal surfaces of diamond with VASP codes
. (Built models in Materials Studio 5.0)
•My calculation results show the trend that incorporation in (
111) is much harder than that in (001) due to the comparison of formation
energy of the two crystal surfaces. Due to machine time limit, only these
two situations are studied. More situations with different incorporation
positions and multi-atom incorporation should be considered to confirm a
conclusion of the inferior of the (111) crystal surface in Phosphorous
incorporation.
07/12- 09/12
PROF. HOUK’S GROUP, DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY, UCLA
LOS ANGELES, USA
Under the supervise of Prof. Kendall N.Houk, as a CSST2 (Cross-disciplinary
Scholarship in Science and Technology) student
Worked with Dr. LIU Peng on the project “Computational Modeling of Wrapping
of Nanotubes by Conducting Polymers”
•Performed DFT(Density Functional Theory) calculation of
binding energy of complex of polymer and SWNT and did energy decomposition
analysis using Q-Chem. We try to explain the selectivity of poly (
dithiafulvalence-fluorene-co-m-thiophene)s wrapping on sc-SWNTs (
semiconducting Single-Walled Carbon Nanotubes) using DFT calculation.
•My calculation has revealed the role of side chains in the
wrapping process is significant and the diameters of SWNTs is more crucial
in the selectivity of wrapping than the electronic structures of SWNTs (
whether it is semiconducting or metallic, or say only the electronic types
are not enough to determine the selectivity), which is innovative and even
contradicts the previous work3.
03/12-04/12
MODERN PHYSICS LABORATORY, SCHOOL OF PHYSICS, NANKAI UNIVERSITY
TIANJIN, CHINA
Under the supervise of Dr. NIU Ziping
Worked on an experiment “Scanning Tunneling Microscope (STM) Tip
Construction and Imaging of Graphite Surface”
•Constructed STM tips by electrochemical etching of Tungsten
wire.
•Diagnosed and repaired the faults in piezoelectric ceramic
driver circuit when our STM (Ds-89s, Peking University) didn’t worked
during our experiments.
•Operated STM to image the surface of graphite standard sample
and analyzed the images of graphite surface.
10/11-12/11 CONDENSED MATTER THEORY AND MATEIRALS CALCULATION GROUP,NANKAI
UNIVERSITY
TIANJIN, CHINA
Under the supervise of Prof. ZHANG Lixin
Worked with a graduate YAO Xiaolong, on the Project “Tuning the Boron
Incorporation Features in Diamond Films: ab initio Calculations”
•Performed DFT calculation on the chemical potential of Boron
simple substance using VASP as part of the calculation for the formation
energy for Boron monomers and dimers defects formed at (100) and (111)
crystal surfaces with different hydrogen coverage.
•Investigated the relationship of the formation of Boron
defects (monomers & dimers), hydrogen coverage, and doping locations (
different crystal surfaces).
07/11 RESEARCH AND DEVELOPMENT CENTER FOR FUNCTIONAL CRYSTALS, THE INSTITUTE
OF PHYSICS, CHINESE ACADEMY OF SCIENCES
BEIJING, CHINA
Under the supervise of Dr. CHEN Xiaolong, Professor and Director of
Research & Development Center for Functional Crystals at the Institute of
Physics, Chinese Academy of Sciences (IOP, CAS).
Worked with a graduate WANG Shunchong on SiC crystal growth using Physical
Vapor Transport method (PVT).
•Learned to conduct SiC crystal growth using PVT
•Analyzed the reasons for the formation of defects of the
crystal I grew
04/11-03/12
THE KEY LABORATORY OF WEAK LIGHT NONLINEAR PHOTONICS, MINISTRY OF EDUCATION,
NANKAI UNIVERSITY
TIANJIN, CHINA
Under the supervise of Prof. WANG Huitian, Dean of School of Physics
Worked with three other classmates on the project “Properties of Second-
Harmonic Wave Induced by
Femtosecond Vector Beams” as 100 Creative Projects for Undergraduate
Students of Nankai University.
•Did computational simulation of the second-harmonic wave
patterns of tight-focused vector beams passing a ZnSe crystal using MatLab.
11/10-01/11
“INNOVATIVE SELF-DESIGN EXPERIMENTS” PROGRAM OF PO-LING CLASS (PROJECT OF
ELITE STUDENTS CULTIVATION FOR FUNDAMENTAL DISCIPLINES, MINISTRY OF
EDUCATION), NANKAI UNIVERSITY
TIANJIN, CHINA
Under the supervise of Assistant Engineer HUI Wangwei
Designed and did experiments on “The Manufacture of Simple Circuit and the
Performance Test of Piezoelectric Ceramics using Michelson Interferometer”
•Learned circuit welding
•Designed and welded a D.C. regulated power supply using
bridge rectifier circuit, capacitor filter and LM317 constant control
circuit. Our circuit can convert 220V commercial power into D.C. regulated
power which is able to be tuned from 5V to 25V.
•Set up a Michelson Interferometer to measure the displacement
of piezoelectric ceramics.
•Combined a Light Power Meter, a Michelson Interferometer and
the D.C. regulated power circuit with piezoelectric ceramics into a system
to accurately measure the displacement of piezoelectric ceramics and curve
fit the relationship of displacement and voltage added on the piezoelectric
ceramics.
Research in
Class4
In Electromagnetics, I did a project “Using Imaging Method to Simulate the
Electrostatic Field Distribution in the System of Two Charged Conducting
Spheres”, I used mirror charge method to simulate the electrostatic
potential of two charged conducting spheres and three charged conducting
spheres using Mathematica.
In Optics, I self-designed, modified or improved nine optical experiments to
investigate optical problems like measuring refractive index with different
methods, generation of optical vortex by dislocations produced by a pair of
flat mirrors, generation, detection of elliptical polarized beam and
measuring the principle axis etc.
In Solid State Physics, I did a project “Tight Binding Method in
Calculating the Electronic Properties of Graphene”. I used tight binding
method to calculate band structure of graphene using
MatLab and compared the results with DFT calculation using Dmol3 in
Materials Studio 5.0.
Internship
07/11 RESEARCH & DEVELOPMENT CENTER FOR FUNCTIONAL CRYSTALS AT THE INSTITUTE
OF PHYSICS, CHINESE ACADEMY OF SCIENCES
BEIJING, CHINA
Crystal Growth internship.
Bulk growth of SiC crystals using Physical Vapor Transport method
Skills C++, Python, Linux, STM, circuit welding
MatLab, VASP, Materials Studio(Windows),
Q-Chem, Amber, Mathematica, Gaussian(Windows)
Activities
09/11 Attended the CPS 2011(2011 Fall Conference of Chinese Physics Society
)in
Zhejiang University, Hangzhou
06/11 Donated in “Pass the sympathy and help the need” activity in School
of Physics.
04/11 Chinese teacher of an American middle school student(daughter of my
English teacher)
10/10 Joined in the “Cup of Dean” Basketball Competition of School of
Physics; our team won the third place
09/10 Attended the CPS 2010 (2010 Fall Conference of Chinese Physics Society
) in Nankai University,Tianjin
06/10 Participated in the “College T-shirt Design”, designed T-shirt for
School of Physics
05/10 Joined in Tianjin College Mathematics Competition
03/10-06/10 Member of Debate and Eloquence Society, member of Freshman
Debate Team, learned basic debate skills. Member of Society of Karate,
learned the basic skills and etiquettes in Karate
12/09 Joined in a Chinese chess contest, as a part of Group Competition of
Chess between Nankai University and Tianjin University
11/09 Competed in the Debate Competition of Freshman and entered the
quarter-final, being selected on Freshman Debate team of Nankai University
10/09 Joined in the “Cup of Dean” Basketball Competition of School of
Physics
10/09-12/09 Did a Part-time job as a home mentor teaching Physics.
09/09-06/10 Secretary in Sports Department, Student Union of School of
Physics
09/08 Second prize in Chinese Mathematics Olympiad in Senior, the highest
score in Qinhuangdao
Third prize in National Physics Competition for High School Students.
1 Po-ling Class: also called Boling Class, founded in 2009 as part of
Project of Elite Students Cultivation for Fundamental Disciplines. Students
selected from ordinary programs make up this class and they have different
trainings in order to be future leaders in fundamental sciences. They have
special curricula and English classes taught by native speakers. There is a
competitive mechanism for students in this class. In each semester students
in this class are evaluated by their academic and research-related
performance and students whose performance are not well enough to be
qualified would be eliminated from this class and excellent students in
ordinary Physics program would be selected into this class. Usually one or
two students change would take place in a semester. Before entering the
junior year, there is a reselection among all the students in the class.
Currently, I am one the five original students surviving from the first
group of 25 students who were selected into this program when entering
Nankai University as freshmen.
2 CSST(Cross-disciplinary Scholarship in Science and Technology) is a summer
research program host by UCLA and CNSI(California Nanosystem Institute)
which selects excellent undergraduate students from nine top universities in
China(Peking University, Nankai University, Fudan University, USTC,
Zhejiang University, Xi’ an Jiaotong University, Nanjing University,
Shanghai Jiaotong University, Sichuan University) to do summer research at
UCLA.
3 Yosuke Kanai, and Jeffrey C. Grossman. Role of Semiconducting and Metallic
Tubes in P3HT/Carbon-Nanotube Photovoltaic Heterojunctions: Density
Functional Theory Calculations. Nano Lett., 2008, 8 (3), 908-912
4 Students in Po-ling Class have special curricula which require students to
do a course-related research project or investigation in nearly every major
course. The project results are usually exhibited by presentation or thesis
. It usually accounts a certain proportion of the final grades in the course.
