晶体生长手册6 晶体生长专题
全新正版 假一赔十 可开发票
¥ 25.59 6.7折 ¥ 38 全新
库存5件
北京朝阳
认证卖家担保交易快速发货售后保障
作者(美)德哈纳拉 等编
出版社哈尔滨工业大学出版社
ISBN9787560338712
出版时间2013-01
装帧平装
开本16开
定价38元
货号1200412861
上书时间2023-11-16
商品详情
- 品相描述:全新
- 商品描述
-
作者简介
Govindhan
Dhanaraj
is
the
Manager
of
Crystal
Growth
Technologies
at
Advanced
Renewable
Energy
Company
(ARC
Energy)
at
Nashua,
New
Hampshire
(USA)
focusing
on
the
growth
of
large
size
sapphire
crystals
for
LED
lighting
applications,
characterization
and
related
crystal
growth
furnace
development.
He
received
his
PhD
from
the
Indian
Institute
of
Science,
Bangalore
and
his
Master
of
Science
from
Anna
University
(India).
Immediately
after
his
doctoral
degree,
Dr.
Dhanaraj
joined
a
National
Laboratory,
presently
known
as
Rajaramanna
Center
for
Advanced
Technology
in
India,
where
he
established
an
advanced
Crystal
Growth
Laboratory
for
the
growth
of
optical
and
laser
crystals.
Prior
to
joining
ARC
Energy,
Dr.
Dhanaraj
served
as
a
Research
Professor
at
the
Department
of
Materials
Science
and
Engineering,
Stony
Brook
University,
NY,
and
also
held
a
position
of
Research
Assistant
Professor
at
Hampton
University,
VA.
During
his
25
years
of
focused
expertise
in
crystal
growth
research,
he
has
developed
optical,
laser
and
semiconductor
bulk
crystals
and
SiC
epitaxial
films
using
solution,
flux,
Czochralski,
Bridgeman,
gel
and
vapor
methods,
and
characterized
them
using
x-ray
topography,
synchrotron
topography,
chemical
etching
and
optical
and
atomic
force
microscopic
techniques.
He
co-organized
a
symposium
on
Industrial
Crystal
Growth
under
the
17th
American
Conference
on
Crystal
Growth
and
Epitaxy
in
conjunction
with
the
14th
US
Biennial
Workshop
on
Organometallic
Vapor
Phase
Epitaxy
held
at
Lake
Geneva,
WIin
2009.
Dr.
Dhanaraj
has
delivered
invited
lectures
and
also
served
as
session
chairman
in
many
crystal
growth
and
materials
science
meetings.
He
has
published
over
100
papers
and
his
research
articles
have
attracted
over
250
rich
citations.
目录
缩略语
PartH
晶体生长专题
47
蛋白质晶体生长的方法
47.1
生物高分子溶液的性质
47.2
传输现象和形成晶体
47.3
晶体生长的典型方法
47.4
扩散一控制方法形成蛋白质晶体
47.5
晶体生长的新趋势(晶体品质增强)
47.6
原子力显微镜的2-维表征(案例研究)
47.7
X射线衍射的3-维表征和相关方法
参考文献
48
用凝胶法形成晶体
48.1
晶体淀积病中的凝胶生长
48.2
实验方法
48.3
凝胶系统中的晶格的形成
48.4
利用凝胶技术的晶体生长
48.5
晶体淀积病的应用
48.6
晶体淀积相关的疾病
48.7
草酸钙
48.8
磷酸钙
48.9
羟基磷灰石(HAP)
48.10
二水磷酸氢钙(DCPD)
48.11
硫酸钙
48.12
尿酸和单钠酸尿
48.13
1-胱氨酸
48.14
1-酪氨酸、马尿酸和环丙氟哌酸
48.15
动脉硬化和胆结石
48.16
激素的结晶:黄体酮和睾酮
48.17
胰腺炎
48.18
结论
参考文献
49
钛硅酸盐中晶体生长和离子交换
49.1
X射线方法
49.2
时间一分辨实验的设备
49.3
检测
49.4
软件
49.5
原位细胞的种类
49.6
利用Sitinakite技术对钛硅酸盐(Na-TS)的原位研究
49.7
原位研究的讨论
49.8
总结
参考文献
50
单晶闪烁材料、
50.1
背景
50.2
闪烁材料
50.3
前景展望
50.4
结论
参考文献
51
硅太阳能电池:材料、器件和制造
51.1
硅光生伏特
51.2
硅光生伏特的晶体生长技术
51.3
电池制作技术
51.4
总结和讨论
参考文献
52
利用线锯制造和切割晶片
52.1
从晶体锭到基本的晶片
52.2
切割:晶片制造中的个后生长工艺
52.3
晶片切割中的现代线据
52.4
总结与展望
参考文献
主题索引
内容摘要
《Springer手册精选系列?晶体生长手册(第6册):晶体生长专题(影印版)》致力于精选这一领域的部分现代课题,例如蛋白质晶体生长、凝胶结晶、原位结构、单晶闪烁材料的生长、光电材料和线切割大晶体薄膜。
相关推荐
— 没有更多了 —
以下为对购买帮助不大的评价