G****e
发帖数: 11198 | 1 introduction:
http://chem.berkeley.edu/people/faculty/xu/xu.html
group page:
http://www.mse.berkeley.edu/groups/xu/index.htm
Research Interests: Polymers, Biomaterials, Materials Chemistry
The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have |
B**T
发帖数: 294 | 2 祝贺!
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides ha
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have
|
X*****r
发帖数: 2521 | 3 con@
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic
Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of
Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold
Neutron for Biology and Techn
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have
|
s*******t
发帖数: 73 | |
j******7
发帖数: 15 | |
k*u
发帖数: 130 | |
T****n
发帖数: 2195 | 7 06年出去那个MIT的不知道怎么样了。
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and var
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have
|
a*****t
发帖数: 822 | |
l*w
发帖数: 646 | |
a*****t
发帖数: 822 | |
|
|
l*w
发帖数: 646 | |
d******f
发帖数: 36 | 12 据说拿MS走人了
addition,
designed
【在 T****n 的大作中提到】
: 06年出去那个MIT的不知道怎么样了。
:
: materials having structures ordered down to the molecular level. This goal
: can't be reached by conventional "top-down" approaches and remains as the "
: holy grail" using synthetic materials such as block copolymers. In addition,
: there have been limitations in the functionalization of these
: nanostructured materials. On the other hand, nature has made a dizzying
: array of materials using a few building blocks. Remarkable progre: ss has
: been made in de novo protein design and var
|
h***t
发帖数: 2540 | 13 工作了?其实也可以了
【在 d******f 的大作中提到】
: 据说拿MS走人了
:
: addition,
: designed
|
L*****s
发帖数: 24744 | 14
就看见个Beverly Zhang.
【在 l*w 的大作中提到】
: http://www.mse.berkeley.edu/groups/xu/members.htm
: 大家有没有去看看她组里的成员?有个PPMM叫Vivian的,还是MIT毕业的。
|
L*****s
发帖数: 24744 | |
m*****r
发帖数: 878 | 16 07年的AP有这么大组,真是超牛啊。
是不是今年该tenure了? |
G****e
发帖数: 11198 | 17 introduction:
http://chem.berkeley.edu/people/faculty/xu/xu.html
group page:
http://www.mse.berkeley.edu/groups/xu/index.htm
Research Interests: Polymers, Biomaterials, Materials Chemistry
The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
Biography:
B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient. |
B**T
发帖数: 294 | 18 祝贺!
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides have been designed
with well-defined structure-sequence relationship and are able to mimic or
exceed natural protein functions with much more simple, yet robust,
structures. Researches in Xu's group take advantage of the recent
developments in de novo protein design and peptidomimetics, polymer science
and nanoparticles synthesis and manipulation, and use designed peptides and
proteins in concert with the self-assembly of block cop: olymers, conjugated
molecule and nanoparticles as platforms to generate nanostructured
materials. Her group aims to generate hierarchical structures spanning multi
-length scales down to few nanometers with built-in biological, electrical
and magnetic functionalities. Her research group focuses on a fundamental
understanding of the physics of assemblage on multiple length scales leading
to the design and assembly of functional thin films with tailored
functionalities.
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
X*****r
发帖数: 2521 | 19 con@
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic
Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of
Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold
Neutron for Biology and Techn
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
s*******t
发帖数: 73 | |
|
|
j******7
发帖数: 15 | |
k*u
发帖数: 130 | |
T****n
发帖数: 2195 | 23 06年出去那个MIT的不知道怎么样了。
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides have been designed
with well-defined structure-sequence relationship and are able to mimic or
exceed natural protein functions with much more simple, yet robust,
structures. Researches in Xu's group take advantage of the recent
developments in de novo protein design and peptidomimetics, polymer science
and nanoparticles synthesis and manipulation, and use designed peptides and
proteins in concert with the self-assembly of block cop: olymers, conjugated
molecule and nanoparticles as platforms to generate nanostructured
materials. Her group aims to generate hierarchical structures spanning multi
-length scales down to few nanometers with built-in biological, electrical
and magnetic functionalities. Her research group focuses on a fundamental
understanding of the physics of assemblage on multiple length scales leading
to the design and assembly of functional thin films with tailored
functionalities.
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
d******f
发帖数: 36 | 24 据说拿MS走人了
addition,
designed
【在 T****n 的大作中提到】
: 06年出去那个MIT的不知道怎么样了。
:
: materials having structures ordered down to the molecular level. This goal
: can't be reached by conventional "top-down" approaches and remains as the "
: holy grail" using synthetic materials such as block copolymers. In addition,
: there have been limitations in the functionalization of these
: nanostructured materials. On the other hand, nature has made a dizzying
: array of materials using a few building blocks. Remarkable progre: ss has
: been made in de novo protein design and various peptides have been designed
: with well-defined structure-sequence relationship and are able to mimic or
|
h***t
发帖数: 2540 | 25 工作了?其实也可以了
【在 d******f 的大作中提到】
: 据说拿MS走人了
:
: addition,
: designed
|
L*****s
发帖数: 24744 | 26
就看见个Beverly Zhang.
【在 l*w 的大作中提到】
: http://www.mse.berkeley.edu/groups/xu/members.htm
: 大家有没有去看看她组里的成员?有个PPMM叫Vivian的,还是MIT毕业的。
|
L*****s
发帖数: 24744 | |
m*****r
发帖数: 878 | 28 07年的AP有这么大组,真是超牛啊。
是不是今年该tenure了? |
l*w
发帖数: 646 | 29 Check out Alumni
【在 L*****s 的大作中提到】
|
l*w
发帖数: 646 | 30 Check out Alumni
【在 L*****s 的大作中提到】
|
|
|
p******b
发帖数: 523 | 31 她劳工牛十倍,祺下学生做美名校教授就好几个。。。 |
s******g
发帖数: 2318 | 32 她老公是谁?
【在 p******b 的大作中提到】
: 她劳工牛十倍,祺下学生做美名校教授就好几个。。。
|
w********h
发帖数: 12367 | 33 结婚了?
【在 p******b 的大作中提到】
: 她劳工牛十倍,祺下学生做美名校教授就好几个。。。
|
s*******a
发帖数: 1296 | 34 不会吧,这么大的八卦你们都不知道。
她老公是她phd老板,polymer界排名第一的大牛。
这位jj堪称学术界的邓文迪。
另外那个vivian美女我竟然也认识。哈哈,小得意一下。
【在 w********h 的大作中提到】
: 结婚了?
|
r****n
发帖数: 918 | 35 真的是无风不起浪,当时系里中国人中的8卦竟然成为了现实。可见不是空穴来风。邓
挖墙角的前妻和这个jj挖的可不能比,人家可是原配结婚几十年3个娃,邓挖的自己当
年也是三。
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
s*******a
发帖数: 1296 | 36 我是说外f嫁比自己大很多的老头,还有借男人上位这几点跟邓有点像,不是说三啊什
么的,那些八卦我不知道。呵呵
【在 r****n 的大作中提到】
: 真的是无风不起浪,当时系里中国人中的8卦竟然成为了现实。可见不是空穴来风。邓
: 挖墙角的前妻和这个jj挖的可不能比,人家可是原配结婚几十年3个娃,邓挖的自己当
: 年也是三。
|
i*****n
发帖数: 514 | 37 这八卦我也听过。。
此女后台很硬。所以才能去berkeley..
不过也得有实力才行。 |
l******8
发帖数: 1691 | 38 罗素?
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
w********h
发帖数: 12367 | 39 八卦有所耳闻,但具体到细节--是否真正结婚了,就没细究。
tom算不上什么排名第一的大牛吧,无论是高分子化学还是物理还是加工。
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
r****n
发帖数: 918 | 40 三这个部分也是一样的,当时两老头都是已婚啊。而且这个老头还是甩了几十年的发妻
。不知道以后他的三个娃怎么想。
【在 s*******a 的大作中提到】
: 我是说外f嫁比自己大很多的老头,还有借男人上位这几点跟邓有点像,不是说三啊什
: 么的,那些八卦我不知道。呵呵
|
|
|
n********k
发帖数: 2818 | 41 表示一下震惊,曾经比较熟的一个人,对她曾经有一定了解,当时的感觉,以我一个曾
经很挑剔的人来看,公平的说Ting是非常勤奋和聪明的一个美女,进校时就是拿校奖学
金的人,不用做TA或者RA,也不用交税,是个富婆:), 做人也非常好和正;后来几
年大家都忙了,也很少联系,就不知道了,然后是一眨眼,她成了明星哈,还想着有机
会请你和她来交流交流呢,然后就是这个八卦贴。。。
【在 w********h 的大作中提到】
: 八卦有所耳闻,但具体到细节--是否真正结婚了,就没细究。
: tom算不上什么排名第一的大牛吧,无论是高分子化学还是物理还是加工。
|
w********h
发帖数: 12367 | 42 hehe...某天在NSF panel似乎她误闯到我那间,也没什么交集,毕竟我老偏生物太多了
。。。
怎么在你们学校网站上没看到你啊?
【在 n********k 的大作中提到】
: 表示一下震惊,曾经比较熟的一个人,对她曾经有一定了解,当时的感觉,以我一个曾
: 经很挑剔的人来看,公平的说Ting是非常勤奋和聪明的一个美女,进校时就是拿校奖学
: 金的人,不用做TA或者RA,也不用交税,是个富婆:), 做人也非常好和正;后来几
: 年大家都忙了,也很少联系,就不知道了,然后是一眨眼,她成了明星哈,还想着有机
: 会请你和她来交流交流呢,然后就是这个八卦贴。。。
|
m*********e
发帖数: 216 | 43 不是大工的,也来凑个热闹,祝贺一下。
再批评一句:不就是个伯克利的aP(小写的a,不是大写的A),至于吗?让这个藤那个
藤的AP, P们情何以堪?
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides have been designed
with well-defined structure-sequence relationship and are able to mimic or
exceed natural protein functions with much more simple, yet robust,
structures. Researches in Xu's group take advantage of the recent
developments in de novo protein design and peptidomimetics, polymer science
and nanoparticles synthesis and manipulation, and use designed peptides and
proteins in concert with the self-assembly of block cop: olymers, conjugated
molecule and nanoparticles as platforms to generate nanostructured
materials. Her group aims to generate hierarchical structures spanning multi
-length scales down to few nanometers with built-in biological, electrical
and magnetic functionalities. Her research group focuses on a fundamental
understanding of the physics of assemblage on multiple length scales leading
to the design and assembly of functional thin films with tailored
functionalities.
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
l***d
发帖数: 1798 | 44 人家已经tenured and promotion to Associate.
别酸了。
addition,
designed
【在 m*********e 的大作中提到】
: 不是大工的,也来凑个热闹,祝贺一下。
: 再批评一句:不就是个伯克利的aP(小写的a,不是大写的A),至于吗?让这个藤那个
: 藤的AP, P们情何以堪?
:
: materials having structures ordered down to the molecular level. This goal
: can't be reached by conventional "top-down" approaches and remains as the "
: holy grail" using synthetic materials such as block copolymers. In addition,
: there have been limitations in the functionalization of these
: nanostructured materials. On the other hand, nature has made a dizzying
: array of materials using a few building blocks. Remarkable progre: ss has
|
c********n
发帖数: 1065 | 45 你们怎么不去看看这个姐姐的老公是谁
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides have been designed
with well-defined structure-sequence relationship and are able to mimic or
exceed natural protein functions with much more simple, yet robust,
structures. Researches in Xu's group take advantage of the recent
developments in de novo protein design and peptidomimetics, polymer science
and nanoparticles synthesis and manipulation, and use designed peptides and
proteins in concert with the self-assembly of block cop: olymers, conjugated
molecule and nanoparticles as platforms to generate nanostructured
materials. Her group aims to generate hierarchical structures spanning multi
-length scales down to few nanometers with built-in biological, electrical
and magnetic functionalities. Her research group focuses on a fundamental
understanding of the physics of assemblage on multiple length scales leading
to the design and assembly of functional thin films with tailored
functionalities.
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
g***e
发帖数: 584 | 46 UMASS 高分子的拿fellowship很正常,不是因为她有多牛,我有个同学刚进学校就拿了
【在 n********k 的大作中提到】
: 表示一下震惊,曾经比较熟的一个人,对她曾经有一定了解,当时的感觉,以我一个曾
: 经很挑剔的人来看,公平的说Ting是非常勤奋和聪明的一个美女,进校时就是拿校奖学
: 金的人,不用做TA或者RA,也不用交税,是个富婆:), 做人也非常好和正;后来几
: 年大家都忙了,也很少联系,就不知道了,然后是一眨眼,她成了明星哈,还想着有机
: 会请你和她来交流交流呢,然后就是这个八卦贴。。。
|
g***e
发帖数: 584 | 47 人russel不做化学,也不做加工的吧?主要做的block copolymer self assembly,在
这个大方向,说排个第一问题不大的,能和他拼一拼的也就bates了啊,有个做这个方
向的老公在,老婆要申点钱不要太容易啊
【在 w********h 的大作中提到】
: 八卦有所耳闻,但具体到细节--是否真正结婚了,就没细究。
: tom算不上什么排名第一的大牛吧,无论是高分子化学还是物理还是加工。
|
w********h
发帖数: 12367 | 48 尼玛那都是多小的方向了,我反驳的是“高分子排名第一的老板”这一说法好吧。。。
【在 g***e 的大作中提到】
: 人russel不做化学,也不做加工的吧?主要做的block copolymer self assembly,在
: 这个大方向,说排个第一问题不大的,能和他拼一拼的也就bates了啊,有个做这个方
: 向的老公在,老婆要申点钱不要太容易啊
|
g***e
发帖数: 584 | 49 从这看出来您真不是做高分子的,你现在去开高分子的会看看是不是一片一片的block
copolymer assembly,这尼玛哪儿是小方向,人russel好歹是院士,有几个能比他牛逼
的,被你这个小方向说的人就一屌丝啊
【在 w********h 的大作中提到】
: 尼玛那都是多小的方向了,我反驳的是“高分子排名第一的老板”这一说法好吧。。。
|
w********h
发帖数: 12367 | 50 晕倒。你跟我谈高分子阿?
高分子首先要分化学、物理和加工三块,即便不算高分子应用(生物,能源,纳米等)
的话。
就不说化学和加工了,就说物理吧,里面又要分三大块,
polymer dynamics/condensed state/modeling,
就只说consensed state吧,还又有crystallization/self assemby/surface/etc...
self-assembly里面block copolymer算一大块,但也不是全部。
院士?你先数数高分子里面有多少科学院/工程院院士再说话。
牛当然是牛的,否则也当不上院士,也不会10年前的时候比较热,发N/S。
但我反驳的是高分子届排名第一号。
你看懂了么,就瞎嚷嚷?
block
【在 g***e 的大作中提到】
: 从这看出来您真不是做高分子的,你现在去开高分子的会看看是不是一片一片的block
: copolymer assembly,这尼玛哪儿是小方向,人russel好歹是院士,有几个能比他牛逼
: 的,被你这个小方向说的人就一屌丝啊
|
|
|
g***e
发帖数: 584 | 51 我觉得你这人态度很差,一会用尼玛,一会用瞎嚷嚷,观点不和很正常,大家把东西讲
开了就好了,没必要弄得自己好像很牛逼,别人说的不对让你很不爽一样。我前面说的
是个block copolymer assembly是说习惯了,意思说他在block copolymer整个领域是
大牛,ting xu申funding很容易,并没有说他在整个polymer是老大,你的贴是反对他
在整个polymer,我的意思是他在block copolymer方向很牛逼,我们之间说的有矛盾吗
?但是你把block copolymer整个领域都默认为是小屌丝领域就很奇怪了。
高分子是分很多啊,你要说化学,你看看现在多少做化学的去做乱七八糟的Block
copolymer了?
你说物理,现在有多少还在做结晶?多少在做block copolymer?你的分类好像block
copolymer就不能研究结晶,不能研究surface了一样?至于modeling,有不少人研究
block copolymer的modeling吧?
block copolymer的加工做的人确实很少,至于高分子应用,多少人用block copolymer
去申funding什么的你不会不知道吧?你做个东西总要有应用吧,那应用不就是生物,
能源,纳米等吗?怎么block copolymer就不能算高分子应用了。
如果上面这些方向涉及block copolymer真的很少,那就真是我才疏学浅,孤陋寡闻了。
【在 w********h 的大作中提到】
: 晕倒。你跟我谈高分子阿?
: 高分子首先要分化学、物理和加工三块,即便不算高分子应用(生物,能源,纳米等)
: 的话。
: 就不说化学和加工了,就说物理吧,里面又要分三大块,
: polymer dynamics/condensed state/modeling,
: 就只说consensed state吧,还又有crystallization/self assemby/surface/etc...
: self-assembly里面block copolymer算一大块,但也不是全部。
: 院士?你先数数高分子里面有多少科学院/工程院院士再说话。
: 牛当然是牛的,否则也当不上院士,也不会10年前的时候比较热,发N/S。
: 但我反驳的是高分子届排名第一号。
|
w********h
发帖数: 12367 | 52 首先,你自己没弄清楚别人在说什么,就跑过来瞎嚷嚷,
就不要怪我态度差,本来我也没在跟你说话。
你没说他在整个高分子领域是老大,但前面我回的帖子是这么说的阿。
另外,热点不再是热点,但也不妨碍过去作出杰出贡献的人的牛。
tom russell那些东西,不也慢慢不再是热点了?
小同学,说话你一要有逻辑,二要看清对象,别班门弄斧。
【在 g***e 的大作中提到】
: 我觉得你这人态度很差,一会用尼玛,一会用瞎嚷嚷,观点不和很正常,大家把东西讲
: 开了就好了,没必要弄得自己好像很牛逼,别人说的不对让你很不爽一样。我前面说的
: 是个block copolymer assembly是说习惯了,意思说他在block copolymer整个领域是
: 大牛,ting xu申funding很容易,并没有说他在整个polymer是老大,你的贴是反对他
: 在整个polymer,我的意思是他在block copolymer方向很牛逼,我们之间说的有矛盾吗
: ?但是你把block copolymer整个领域都默认为是小屌丝领域就很奇怪了。
: 高分子是分很多啊,你要说化学,你看看现在多少做化学的去做乱七八糟的Block
: copolymer了?
: 你说物理,现在有多少还在做结晶?多少在做block copolymer?你的分类好像block
: copolymer就不能研究结晶,不能研究surface了一样?至于modeling,有不少人研究
|
w********h
发帖数: 12367 | 53 呵呵,诺贝尔奖以及诺贝尔奖级别的高分子牛人还没死绝吧,
轮得到tom russell排第一?笑话。 |
p******b
发帖数: 523 | 54 印象UMASS高分子所有第一年研究生都是那FELLOWSHIP的,第二年以后就分组做RA啦。
据说全美50%的高分子女教授都是UMASS 高分子系毕业的。。。Ting是一个勤奋女生,
很有气质,Tom都沦陷确是没想到的。感情是两人的事,外人何必穷操心? |
p******b
发帖数: 523 | 55 她劳工牛十倍,祺下学生做美名校教授就好几个。。。 |
s******g
发帖数: 2318 | 56 她老公是谁?
【在 p******b 的大作中提到】
: 她劳工牛十倍,祺下学生做美名校教授就好几个。。。
|
w********h
发帖数: 12367 | 57 结婚了?
【在 p******b 的大作中提到】
: 她劳工牛十倍,祺下学生做美名校教授就好几个。。。
|
s*******a
发帖数: 1296 | 58 不会吧,这么大的八卦你们都不知道。
她老公是她phd老板,polymer界排名第一的大牛。
这位jj堪称学术界的邓文迪。
另外那个vivian美女我竟然也认识。哈哈,小得意一下。
【在 w********h 的大作中提到】
: 结婚了?
|
r****n
发帖数: 918 | 59 真的是无风不起浪,当时系里中国人中的8卦竟然成为了现实。可见不是空穴来风。邓
挖墙角的前妻和这个jj挖的可不能比,人家可是原配结婚几十年3个娃,邓挖的自己当
年也是三。
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
s*******a
发帖数: 1296 | 60 我是说外f嫁比自己大很多的老头,还有借男人上位这几点跟邓有点像,不是说三啊什
么的,那些八卦我不知道。呵呵
【在 r****n 的大作中提到】
: 真的是无风不起浪,当时系里中国人中的8卦竟然成为了现实。可见不是空穴来风。邓
: 挖墙角的前妻和这个jj挖的可不能比,人家可是原配结婚几十年3个娃,邓挖的自己当
: 年也是三。
|
|
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i*****n
发帖数: 514 | 61 这八卦我也听过。。
此女后台很硬。所以才能去berkeley..
不过也得有实力才行。 |
l******8
发帖数: 1691 | 62 罗素?
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
w********h
发帖数: 12367 | 63 八卦有所耳闻,但具体到细节--是否真正结婚了,就没细究。
tom算不上什么排名第一的大牛吧,无论是高分子化学还是物理还是加工。
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
r****n
发帖数: 918 | 64 三这个部分也是一样的,当时两老头都是已婚啊。而且这个老头还是甩了几十年的发妻
。不知道以后他的三个娃怎么想。
【在 s*******a 的大作中提到】
: 我是说外f嫁比自己大很多的老头,还有借男人上位这几点跟邓有点像,不是说三啊什
: 么的,那些八卦我不知道。呵呵
|
n********k
发帖数: 2818 | 65 表示一下震惊,曾经比较熟的一个人,对她曾经有一定了解,当时的感觉,以我一个曾
经很挑剔的人来看,公平的说Ting是非常勤奋和聪明的一个美女,进校时就是拿校奖学
金的人,不用做TA或者RA,也不用交税,是个富婆:), 做人也非常好和正;后来几
年大家都忙了,也很少联系,就不知道了,然后是一眨眼,她成了明星哈,还想着有机
会请你和她来交流交流呢,然后就是这个八卦贴。。。
【在 w********h 的大作中提到】
: 八卦有所耳闻,但具体到细节--是否真正结婚了,就没细究。
: tom算不上什么排名第一的大牛吧,无论是高分子化学还是物理还是加工。
|
w********h
发帖数: 12367 | 66 hehe...某天在NSF panel似乎她误闯到我那间,也没什么交集,毕竟我老偏生物太多了
。。。
怎么在你们学校网站上没看到你啊?
【在 n********k 的大作中提到】
: 表示一下震惊,曾经比较熟的一个人,对她曾经有一定了解,当时的感觉,以我一个曾
: 经很挑剔的人来看,公平的说Ting是非常勤奋和聪明的一个美女,进校时就是拿校奖学
: 金的人,不用做TA或者RA,也不用交税,是个富婆:), 做人也非常好和正;后来几
: 年大家都忙了,也很少联系,就不知道了,然后是一眨眼,她成了明星哈,还想着有机
: 会请你和她来交流交流呢,然后就是这个八卦贴。。。
|
m*********e
发帖数: 216 | 67 不是大工的,也来凑个热闹,祝贺一下。
再批评一句:不就是个伯克利的aP(小写的a,不是大写的A),至于吗?让这个藤那个
藤的AP, P们情何以堪?
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides have been designed
with well-defined structure-sequence relationship and are able to mimic or
exceed natural protein functions with much more simple, yet robust,
structures. Researches in Xu's group take advantage of the recent
developments in de novo protein design and peptidomimetics, polymer science
and nanoparticles synthesis and manipulation, and use designed peptides and
proteins in concert with the self-assembly of block cop: olymers, conjugated
molecule and nanoparticles as platforms to generate nanostructured
materials. Her group aims to generate hierarchical structures spanning multi
-length scales down to few nanometers with built-in biological, electrical
and magnetic functionalities. Her research group focuses on a fundamental
understanding of the physics of assemblage on multiple length scales leading
to the design and assembly of functional thin films with tailored
functionalities.
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
l***d
发帖数: 1798 | 68 人家已经tenured and promotion to Associate.
别酸了。
addition,
designed
【在 m*********e 的大作中提到】
: 不是大工的,也来凑个热闹,祝贺一下。
: 再批评一句:不就是个伯克利的aP(小写的a,不是大写的A),至于吗?让这个藤那个
: 藤的AP, P们情何以堪?
:
: materials having structures ordered down to the molecular level. This goal
: can't be reached by conventional "top-down" approaches and remains as the "
: holy grail" using synthetic materials such as block copolymers. In addition,
: there have been limitations in the functionalization of these
: nanostructured materials. On the other hand, nature has made a dizzying
: array of materials using a few building blocks. Remarkable progre: ss has
|
c********n
发帖数: 1065 | 69 你们怎么不去看看这个姐姐的老公是谁
materials having structures ordered down to the molecular level. This goal
can't be reached by conventional "top-down" approaches and remains as the "
holy grail" using synthetic materials such as block copolymers. In addition,
there have been limitations in the functionalization of these
nanostructured materials. On the other hand, nature has made a dizzying
array of materials using a few building blocks. Remarkable progre: ss has
been made in de novo protein design and various peptides have been designed
with well-defined structure-sequence relationship and are able to mimic or
exceed natural protein functions with much more simple, yet robust,
structures. Researches in Xu's group take advantage of the recent
developments in de novo protein design and peptidomimetics, polymer science
and nanoparticles synthesis and manipulation, and use designed peptides and
proteins in concert with the self-assembly of block cop: olymers, conjugated
molecule and nanoparticles as platforms to generate nanostructured
materials. Her group aims to generate hierarchical structures spanning multi
-length scales down to few nanometers with built-in biological, electrical
and magnetic functionalities. Her research group focuses on a fundamental
understanding of the physics of assemblage on multiple length scales leading
to the design and assembly of functional thin films with tailored
functionalities.
【在 G****e 的大作中提到】
: introduction:
: http://chem.berkeley.edu/people/faculty/xu/xu.html
: group page:
: http://www.mse.berkeley.edu/groups/xu/index.htm
: Research Interests: Polymers, Biomaterials, Materials Chemistry
: The key to future technology is the design and fabrication of functional materials having structures ordered down to the molecular level. This goal can't be reached by conventional "top-down" approaches and remains as the "holy grail" using synthetic materials such as block copolymers. In addition, there have been limitations in the functionalization of these nanostructured materials. On the other hand, nature has made a dizzying array of materials using a few building blocks. Remarkable progress has been made in de novo protein design and various peptides have been designed with well-defined structure-sequence relationship and are able to mimic or exceed natural protein functions with much more simple, yet robust, structures. Researches in Xu's group take advantage of the recent developments in de novo protein design and peptidomimetics, polymer science and nanoparticles synthesis and manipulation, and use designed peptides and proteins in concert with the self-assembly of block copolymers, conjugated molecule and nanoparticles as platforms to generate nanostructured materials. Her group aims to generate hierarchical structures spanning multi-length scales down to few nanometers with built-in biological, electrical and magnetic functionalities. Her research group focuses on a fundamental understanding of the physics of assemblage on multiple length scales leading to the design and assembly of functional thin films with tailored functionalities.
: Biography:
: B.S. Dalian University of Technology (1996); M.S Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (1999); Ph.D University of Massachusetts, Amherst (2004); Postdoc University of Pennsylvania and Cold Neutron for Biology and Technology (CNBT) at NIST (2004-2007); Assistant Professor, University of California, Berkeley (2007); University of Massachusetts graduate school fellowship (2001); MRS graduate student silver award (2003); 2007 DuPont Science and Technology Grant recipient.
|
g***e
发帖数: 584 | 70 UMASS 高分子的拿fellowship很正常,不是因为她有多牛,我有个同学刚进学校就拿了
【在 n********k 的大作中提到】
: 表示一下震惊,曾经比较熟的一个人,对她曾经有一定了解,当时的感觉,以我一个曾
: 经很挑剔的人来看,公平的说Ting是非常勤奋和聪明的一个美女,进校时就是拿校奖学
: 金的人,不用做TA或者RA,也不用交税,是个富婆:), 做人也非常好和正;后来几
: 年大家都忙了,也很少联系,就不知道了,然后是一眨眼,她成了明星哈,还想着有机
: 会请你和她来交流交流呢,然后就是这个八卦贴。。。
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g***e
发帖数: 584 | 71 人russel不做化学,也不做加工的吧?主要做的block copolymer self assembly,在
这个大方向,说排个第一问题不大的,能和他拼一拼的也就bates了啊,有个做这个方
向的老公在,老婆要申点钱不要太容易啊
【在 w********h 的大作中提到】
: 八卦有所耳闻,但具体到细节--是否真正结婚了,就没细究。
: tom算不上什么排名第一的大牛吧,无论是高分子化学还是物理还是加工。
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w********h
发帖数: 12367 | 72 尼玛那都是多小的方向了,我反驳的是“高分子排名第一的老板”这一说法好吧。。。
【在 g***e 的大作中提到】
: 人russel不做化学,也不做加工的吧?主要做的block copolymer self assembly,在
: 这个大方向,说排个第一问题不大的,能和他拼一拼的也就bates了啊,有个做这个方
: 向的老公在,老婆要申点钱不要太容易啊
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g***e
发帖数: 584 | 73 从这看出来您真不是做高分子的,你现在去开高分子的会看看是不是一片一片的block
copolymer assembly,这尼玛哪儿是小方向,人russel好歹是院士,有几个能比他牛逼
的,被你这个小方向说的人就一屌丝啊
【在 w********h 的大作中提到】
: 尼玛那都是多小的方向了,我反驳的是“高分子排名第一的老板”这一说法好吧。。。
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w********h
发帖数: 12367 | 74 晕倒。你跟我谈高分子阿?
高分子首先要分化学、物理和加工三块,即便不算高分子应用(生物,能源,纳米等)
的话。
就不说化学和加工了,就说物理吧,里面又要分三大块,
polymer dynamics/condensed state/modeling,
就只说consensed state吧,还又有crystallization/self assemby/surface/etc...
self-assembly里面block copolymer算一大块,但也不是全部。
院士?你先数数高分子里面有多少科学院/工程院院士再说话。
牛当然是牛的,否则也当不上院士,也不会10年前的时候比较热,发N/S。
但我反驳的是高分子届排名第一号。
你看懂了么,就瞎嚷嚷?
block
【在 g***e 的大作中提到】
: 从这看出来您真不是做高分子的,你现在去开高分子的会看看是不是一片一片的block
: copolymer assembly,这尼玛哪儿是小方向,人russel好歹是院士,有几个能比他牛逼
: 的,被你这个小方向说的人就一屌丝啊
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g***e
发帖数: 584 | 75 我觉得你这人态度很差,一会用尼玛,一会用瞎嚷嚷,观点不和很正常,大家把东西讲
开了就好了,没必要弄得自己好像很牛逼,别人说的不对让你很不爽一样。我前面说的
是个block copolymer assembly是说习惯了,意思说他在block copolymer整个领域是
大牛,ting xu申funding很容易,并没有说他在整个polymer是老大,你的贴是反对他
在整个polymer,我的意思是他在block copolymer方向很牛逼,我们之间说的有矛盾吗
?但是你把block copolymer整个领域都默认为是小屌丝领域就很奇怪了。
高分子是分很多啊,你要说化学,你看看现在多少做化学的去做乱七八糟的Block
copolymer了?
你说物理,现在有多少还在做结晶?多少在做block copolymer?你的分类好像block
copolymer就不能研究结晶,不能研究surface了一样?至于modeling,有不少人研究
block copolymer的modeling吧?
block copolymer的加工做的人确实很少,至于高分子应用,多少人用block copolymer
去申funding什么的你不会不知道吧?你做个东西总要有应用吧,那应用不就是生物,
能源,纳米等吗?怎么block copolymer就不能算高分子应用了。
如果上面这些方向涉及block copolymer真的很少,那就真是我才疏学浅,孤陋寡闻了。
【在 w********h 的大作中提到】
: 晕倒。你跟我谈高分子阿?
: 高分子首先要分化学、物理和加工三块,即便不算高分子应用(生物,能源,纳米等)
: 的话。
: 就不说化学和加工了,就说物理吧,里面又要分三大块,
: polymer dynamics/condensed state/modeling,
: 就只说consensed state吧,还又有crystallization/self assemby/surface/etc...
: self-assembly里面block copolymer算一大块,但也不是全部。
: 院士?你先数数高分子里面有多少科学院/工程院院士再说话。
: 牛当然是牛的,否则也当不上院士,也不会10年前的时候比较热,发N/S。
: 但我反驳的是高分子届排名第一号。
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w********h
发帖数: 12367 | 76 首先,你自己没弄清楚别人在说什么,就跑过来瞎嚷嚷,
就不要怪我态度差,本来我也没在跟你说话。
你没说他在整个高分子领域是老大,但前面我回的帖子是这么说的阿。
另外,热点不再是热点,但也不妨碍过去作出杰出贡献的人的牛。
tom russell那些东西,不也慢慢不再是热点了?
小同学,说话你一要有逻辑,二要看清对象,别班门弄斧。
【在 g***e 的大作中提到】
: 我觉得你这人态度很差,一会用尼玛,一会用瞎嚷嚷,观点不和很正常,大家把东西讲
: 开了就好了,没必要弄得自己好像很牛逼,别人说的不对让你很不爽一样。我前面说的
: 是个block copolymer assembly是说习惯了,意思说他在block copolymer整个领域是
: 大牛,ting xu申funding很容易,并没有说他在整个polymer是老大,你的贴是反对他
: 在整个polymer,我的意思是他在block copolymer方向很牛逼,我们之间说的有矛盾吗
: ?但是你把block copolymer整个领域都默认为是小屌丝领域就很奇怪了。
: 高分子是分很多啊,你要说化学,你看看现在多少做化学的去做乱七八糟的Block
: copolymer了?
: 你说物理,现在有多少还在做结晶?多少在做block copolymer?你的分类好像block
: copolymer就不能研究结晶,不能研究surface了一样?至于modeling,有不少人研究
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w********h
发帖数: 12367 | 77 呵呵,诺贝尔奖以及诺贝尔奖级别的高分子牛人还没死绝吧,
轮得到tom russell排第一?笑话。 |
p******b
发帖数: 523 | 78 印象UMASS高分子所有第一年研究生都是那FELLOWSHIP的,第二年以后就分组做RA啦。
据说全美50%的高分子女教授都是UMASS 高分子系毕业的。。。Ting是一个勤奋女生,
很有气质,Tom都沦陷确是没想到的。感情是两人的事,外人何必穷操心? |
f**********r
发帖数: 18251 | 79 http://www.consigliruggeriofuneralhome.com/Obitituaries/377
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
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y*****n
发帖数: 205 | 80 TPR是牛人,但是无论大小分支,排第一是不可能的 |
|
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j****i
发帖数: 54 | 81 读书时候的男友不是lab mate么 还订婚了的
还是Berkeley的系里?
【在 r****n 的大作中提到】
: 真的是无风不起浪,当时系里中国人中的8卦竟然成为了现实。可见不是空穴来风。邓
: 挖墙角的前妻和这个jj挖的可不能比,人家可是原配结婚几十年3个娃,邓挖的自己当
: 年也是三。
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c**m
发帖数: 757 | 82 block polymer 在整个高分子研究来说也就10%吧
真正赚钱的是传统加工和合成,搞化工的在玩
至于什么assembly 或者活性聚合 也就是学术界或startup玩玩,一锅能煮出 半吨不错
了 一年的利润都比不上国内做洗脸盆的
还有,王老师是业界大牛,好好拜拜
【在 g***e 的大作中提到】
: 我觉得你这人态度很差,一会用尼玛,一会用瞎嚷嚷,观点不和很正常,大家把东西讲
: 开了就好了,没必要弄得自己好像很牛逼,别人说的不对让你很不爽一样。我前面说的
: 是个block copolymer assembly是说习惯了,意思说他在block copolymer整个领域是
: 大牛,ting xu申funding很容易,并没有说他在整个polymer是老大,你的贴是反对他
: 在整个polymer,我的意思是他在block copolymer方向很牛逼,我们之间说的有矛盾吗
: ?但是你把block copolymer整个领域都默认为是小屌丝领域就很奇怪了。
: 高分子是分很多啊,你要说化学,你看看现在多少做化学的去做乱七八糟的Block
: copolymer了?
: 你说物理,现在有多少还在做结晶?多少在做block copolymer?你的分类好像block
: copolymer就不能研究结晶,不能研究surface了一样?至于modeling,有不少人研究
|
e*****r
发帖数: 1027 | 83 Zan taste!
【在 l*w 的大作中提到】
: http://www.mse.berkeley.edu/groups/xu/members.htm
: 大家有没有去看看她组里的成员?有个PPMM叫Vivian的,还是MIT毕业的。
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m***r
发帖数: 225 | |
t****e
发帖数: 279 | |
h***t
发帖数: 2540 | |
a*****c
发帖数: 3525 | 87
这个主题发展成这样,深感震惊,意外!
【在 h***t 的大作中提到】
: 感觉后面都是八卦了,我锁帖子了
|
f**********r
发帖数: 18251 | 88 http://www.consigliruggeriofuneralhome.com/Obitituaries/377
【在 s*******a 的大作中提到】
: 不会吧,这么大的八卦你们都不知道。
: 她老公是她phd老板,polymer界排名第一的大牛。
: 这位jj堪称学术界的邓文迪。
: 另外那个vivian美女我竟然也认识。哈哈,小得意一下。
|
y*****n
发帖数: 205 | 89 TPR是牛人,但是无论大小分支,排第一是不可能的 |
j****i
发帖数: 54 | 90 读书时候的男友不是lab mate么 还订婚了的
还是Berkeley的系里?
【在 r****n 的大作中提到】
: 真的是无风不起浪,当时系里中国人中的8卦竟然成为了现实。可见不是空穴来风。邓
: 挖墙角的前妻和这个jj挖的可不能比,人家可是原配结婚几十年3个娃,邓挖的自己当
: 年也是三。
|
|
|
c**m
发帖数: 757 | 91 block polymer 在整个高分子研究来说也就10%吧
真正赚钱的是传统加工和合成,搞化工的在玩
至于什么assembly 或者活性聚合 也就是学术界或startup玩玩,一锅能煮出 半吨不错
了 一年的利润都比不上国内做洗脸盆的
还有,王老师是业界大牛,好好拜拜
【在 g***e 的大作中提到】
: 我觉得你这人态度很差,一会用尼玛,一会用瞎嚷嚷,观点不和很正常,大家把东西讲
: 开了就好了,没必要弄得自己好像很牛逼,别人说的不对让你很不爽一样。我前面说的
: 是个block copolymer assembly是说习惯了,意思说他在block copolymer整个领域是
: 大牛,ting xu申funding很容易,并没有说他在整个polymer是老大,你的贴是反对他
: 在整个polymer,我的意思是他在block copolymer方向很牛逼,我们之间说的有矛盾吗
: ?但是你把block copolymer整个领域都默认为是小屌丝领域就很奇怪了。
: 高分子是分很多啊,你要说化学,你看看现在多少做化学的去做乱七八糟的Block
: copolymer了?
: 你说物理,现在有多少还在做结晶?多少在做block copolymer?你的分类好像block
: copolymer就不能研究结晶,不能研究surface了一样?至于modeling,有不少人研究
|
e*****r
发帖数: 1027 | 92 Zan taste!
【在 l*w 的大作中提到】
: http://www.mse.berkeley.edu/groups/xu/members.htm
: 大家有没有去看看她组里的成员?有个PPMM叫Vivian的,还是MIT毕业的。
|
m***r
发帖数: 225 | |
t****e
发帖数: 279 | |
h***t
发帖数: 2540 | |
a*****c
发帖数: 3525 | 96
这个主题发展成这样,深感震惊,意外!
【在 h***t 的大作中提到】
: 感觉后面都是八卦了,我锁帖子了
|
X*****r
发帖数: 2521 | 97 这人谁啊
【在 m***r 的大作中提到】
: 这兄弟的人肉能力不是盖的。佩服!
|
