简     历

1. 吉林大学物理系学习，获学士和硕士学位
2.  天津理工学院材料物理所工作，主要从事发光材料和薄膜

场致发光器件的研究。

1.  在吉林大学化学系攻读博士学位，研究方向是固体电解质

的合成和性质表征。

1.  山东大学晶体材料国家重点实验室博士后，从事低维半导体材料的制备及其性质研究。

1998年2月  受聘为山东大学副教授。
2000年9月  破格晋升为教授。
2001年9月  晋升为博士生指导教师。
联系方式：
电话：0531-88361856，传真：0531-88361856，E-mail: cuidl@sdu.edu.cn
科研成果和获奖：
1992年  获得第二届天津青年科技奖。

1. 获得山东省优秀中青年科学家科研奖励基金。
2. 完成教育部高等学校骨干教师资助计划项目“半导体纳米材料的表面活性及聚合物新合成方法研究”。
3. 完成山东省优秀中青年科学家科研奖励基金项目“半导体纳米材料关键制备技术研究”。

2003年  获得教育部“高等学校优秀骨干教师”奖励。
2004年  完成国家自然科学基金项目“纳米催化的三维周期性微结构制备新技术的探索研究”。
2004年  完成山东省自然科学基金项目“立方氮化硼超硬材料新合成技术的开发”。
2005年  完成山东省科技攻关计划项目“纳米材料和器件的制备、表征及其应用”。

1. 入选教育部“新世纪优秀人才支持计划”。
2. 完成教育部科学技术研究重点项目“利用结构诱导方法制备cBN过程中界面状态研究”。

2006年  完成国家自然科学基金纳米专项项目“软化学方法在新纳米结构研制中的应用”。
2006年  完成国家自然科学基金项目“氮化硼晶体水热制备方法开发及相关机理探索”。
主要研究方向：

1. 纳米超硬材料新合成路线探索。包括立方氮化硼、金刚石、氮化碳等纳米超硬材料的新合成方法和相关机理探索、反应过程中物相选择性的控制方法及其原理探索研究。这方面的阶段性研究成果发表于Chemistry of Materials (2001)，Nature和MRS Bulletin发表文章专门做了报道。
2. 氮化物晶体新生长方法探索。以探索具有较强普适性的新方法和新原理为基础，利用物理手段调控水热和溶剂热条件下的化学反应过程，在此基础上生长氮化物晶体。美国同行专家评价我们利用水热法生长立方氮化硼晶体的研究结果为“····It looks very, very interesting; I find your results very exciting.  I don't know of anyone else in the world who's gotten as far as you have with single crystal cBN.····”。
3. 水热和溶剂热反应过程及动力学研究。利用红外吸收光谱和拉曼散射光谱，实时原位监测高温高压条件下的水热和溶剂热反应过程，研究反应动力学。通过这方面的研究，搞清楚水热和溶剂热反应过程及其中的基本规律，为实现对反应过程的调控和“定向”合成奠定基础。
4. 新型纳米结构探索及复合功能材料和器件研制。在发展系列强通用性新方法基础上，以纳米颗粒为基本单元，构建各种具有纳米级孔径且孔道规则排列的多孔纳米固体（宏观体块）；利用孔道的量子限制效应以及孔道表面的高活性，再结合纳米颗粒内部的量子限制效应，研制新型复合光电功能材料和微腔纳电子器件阵列。通过合作研究，探索多孔纳米固体在高性能绝热材料、新型化学传感器、新型低K材料、新型吸附和催化剂以及纳电子器件模板等方面的应用。

承担的科研课题：
目前承担着国家自然科学基金面上项目两项，国家自然科学基金创新团队项目、教育部创新团队项目、教育部重大研究项目各一项，科技部重大基础研究前期专项项目一项、山东省科技攻关项目两项。
申请和授权的发明专利：
1.  一种高效半导体纳米材料的制备方法，证书号ZL01107723.9
2.  制备氮化硼纳米微粉的方法，证书号ZL01115125.0
3.  水热条件下制备氮化物超微粉和氮化物晶体的方法，证书号ZL02110066.7
4.  一种在水热条件下利用多步原位反应制备氮化物晶体的方法，证书号ZL03111724.4
5.  一种用可控汽化溶剂热压技术制备多孔纳米固体的方法，证书号ZL03111872.0
6.  用于控制水热和溶剂热反应过程的高压反应釜，证书号ZL03218373.9
7.  一种高效半导体纳米材料的应用，证书号ZL03145199.3
8.  一种用于控制氮化硼物相的选相原位合成方法，证书号ZL200410035714.2
9.  一种用于液相反应、物相转变和制备多孔固化体的组合模具，证书号ZL200510044323.1
10. 一种调控硼碳氮材料物相的溶剂热恒压合成方法，申请号200610042101.0
11. 一种可控制备硼碳氮材料的水热恒压合成方法，申请号200610042088.9
应邀参编学术专著和论文：
1、Deliang Cui, Minhua Jiang, Focus on Nanotechnology Research, Nova Press (美), 2004, Chaper 6.
2、Zefeng Lai, Lingling Zhu, Lili Yu et al, Structural transformation of BN nanoparticles in benzene under moderate conditions, Zeitschrift fur Naturforschung B, 2006, 61(12), 1555
发表研究论文：
   近五年来共发表SCI论文50余篇，国内外同行专家索要论文三十余次。代表性论文如下：

1. Synthesis of cubic boron nitride at low temperature & low pressure conditions, Chem. Mater. 2001

    * Hard cheese to hot squeeze, Nature, (作者Philip Ball, * 对Chem. Mater.文章的专门报道)，2001
* Soft chemistry method developed for the synthesis of cubic boron nitride, MRS Bull., (作者Cora Linda, * 对Chem. Mater.文章的专门报道)
2．Synthesis of AlN nanocrystals and their catalytic effect on the polymerization of benzene, Nanotechnology, 2003
（Nova Science Press主编Frank Columbus教授因此特别邀请我们参加Focus on Nanotechnology Research一书的编著工作）
3．Preparation of GaP/RhB nanocomposite by ultrasonic irradiation, Inorg. Chem. Commun., 2003
（英国Science Writer Association的David Bradley专门撰写了文章，对我们的这项研究结果进行重点报道）
4．Phase-selective synthesis of cubic boron nitride in hydrothermal solutions, J. Cryst. Growth, 2004
（美国同行专家Steven J. Syracus博士对这个工作给予了高度评价，并希望能够就这项技术进行合作研究）

1. The stability and surface reactivity of GaP nanocrystals, Prog. Cryst. Growth & Charact. Mater., 2000
2. A Novel Method for Improving the Performance of ZnO Gas Sensors, Sensors & Actuators B, 2005

（已有多位国内外同行索要这篇文章）

1. Low temperature benzene thermal synthesis and characterization of boron nitride nanocrystals, Mater. Lett., 2002
2. Synthesis of AlN nanocrystals in organic solvent at atmospheric pressure, J. Cryst. Growth, 2002
3. The activation of benzene molecules by BN nanocrystals, Mater. Lett., 2002
4. A novel synthetic route to prepare cubic BN nanorods, Mater. Res. Bull., 2002

Curriculum Vitae
Name: Deliang Cui
Sex: Male
Date of Birth: Dec. 14, 1965
Hometown: Tangshan City, Hebei Province, P. R. China
Present Address: State Key Lab of Crystal Materials, Shandong University, Jinan 250100, P. R. China
Academic Title: Professor of Shandong University
Telephone: +86-531-88361856
Fax: +86-531-88361856
E-mail: cuidl@sdu.edu.cn
Resume:
1982~1986 Student of Physics Department, Jilin University, received Bachelor’s degree in 1986.
1986~1989 Graduate student of Physics Department, Jilin University, received Master’s degree in 1989. The research subject of the thesis was preparation and characterization of Bi-based superconducting materials.
1989~1992 Researcher of the Institute of Materials Physics, Tianjin University of Technology. Major research subject was preparation of inorganic luminescent materials and thin film electroluminescent devices.
1992~1995 PhD student of Chemistry Department, Jilin University, received PhD degree in 1995. The research subject of the thesis was preparation and characterization of silicate solid state electrolytes.
1996~1998 Postdoctoral researcher of the State Key Lab of Crystal Materials, Shandong University. The major research subject was preparation and analysis of semiconducting nanomaterials.
1998~present Researcher of the State Key Lab of Crystal Materials, Shandong University, was promoted to Professor on Sept, 2000.
Achievements and Rewards:
1991 Accomplished the project “Study on the thin film electroluminescence” supported by Tianjin Science & Technology Council.
1991 Accomplished the project “The optimum utilization of independent and re-combination centers in thin film electroluminscence”, which was supported by National Natural Science Foundation of China (NSFC).
1992 Was awarded the Prize of Excellent Young Scientist in Tianjin.
1998 Was awarded the Foundation for Outstanding Young Scientist in Shandong Province.
2002 Accomplished the project “Investigation on the activity of semiconducting nanomaterials and the development of new methods for synthesizing polymers”, which was supported by the Fund for University Key Teacher by the Ministry of Education of China.
2002 Accomplished the project “Study on the key preparation methods of semiconducting nano- materials” supported by the Foundation for Outstanding Young Scientist in Shandong Province.
2003 Was awarded the Prize of Excellent University Key Teacher by the Ministry of Education of China.
2004 Accomplished the project “Investigation on the new method for preparing 3D periodic microstructures catalyzed by nanoparticles”, which was supported by NSFC.
2004 Accomplished the project “Investigation on the new route of synthesizing cubic boron nitride” supported by Natural Science Foundation of Shandong Province.
2005 Was awarded the New Century Elitist Supporting Program Foundation by the Ministry of Education of China.
2005 Accomplished the project “Preparation, characterization and utilization of nanomaterials and nanodevices”, which was supported by the Foundation of Key Program of Science and Technology, Shandong Province.

Research Interests

(1) Exploration of new routes for synthesizing super-hard nanomaterials, include developing new methods for controlling the phases of boron nitride, carbon and carbon nitride. The major goal is to selectively synthesize cBN, diamond and cubic carbon nitride nanomaterials in solvothermal and hydrothermal solutions. The previous results have been highlighted by Nature and MRS Bull. (2001)
(2) Constructing the novel porous nanosolids using nanoparticle as the building unit, by developing new preparation techniques. Furthermore, synthesizing nanocomposite luminescent materials, nanocomposite sensing materials, optoelectronic nano-device arrays, by using the porous nanosolids as the starting materials. The so-called porous nanosolid is a new kind of bulk, which is constructed by nanoparticles forming pores of several nanometers in diameter. Because of the unique structure, the porous nanosolid will possess dual-quantum confinement effects and highly surface reactivity.
(3) Growing nitride bulk crystals, namely, hBN, cBN and carbon nitride etc, using solvothermal and hydrothermal synthesis methods. The major way is to design some new types of reactors and establish a series of novel methods, which will be used to control the phases and growth process of nitrides in hydrothermal and solvothermal solutions. Some patents regarding this work have been authorized by Chinese National Patent Bureau.
(4) Investigation on the reaction kinetics by continuously monitoring the process of solvothermal and hydrothermal reactions. Fourier Transformation Infrared (FTIR) absorption spectrum and Raman scattering spectrum are used as the major tools, and the reactors used in this work have been specially designed and manufactured according to our patents.

Patents

1.  A novel method for preparing semiconductor nanomaterials, No. ZL01107723.9
2.  A new route of preparing cubic boron nitride nanoparticles, No. ZL01115125.0
3.  A hydrothermal method used for synthesizing ultrafine nitride powders and crystals, No. ZL02110066.7
4.  A novel multi-step in-situ reactions method for growing nitride crystals in hydrothermal solutions, No. ZL03111724.4
5.  A new method of preparing porous nanosolids by controlling the vaporizing process of solvents, No. ZL03111872.0
6.  A new type of autoclave used for controlling the reaction process of solvothermal and hydrothermal reactions, No. ZL03218373.9
7.  Application of new kind of highly active semiconductor nanomaterials, No. ZL03145199.3
8.  A novel phase-selective method developed for controlling the phases of boron nitride, No. 200410035714.2 (pending)
9.  A new combined mold used in liquid-phase reaction, phase-transformation and preparation of porous bulks, No. 200510044323.1 (pending)
10. A novel constant-pressure solvothermal synthesis method used for controlling the phases of B-C-N compounds, No. 200610042101.0 (pending)
11. A novel constant-pressure hydrothermal synthesis method used for phase-selectively synthesizing B-C-N compounds, No. 200610042088.9 (pending)

Monograph

  Deliang Cui, Minhua Jiang, Focus on Nanotechnology Research, Nova Press (USA), 2004, chapter 6.

Selected Publications

More than 50 papers have been published in SCI journals in recent years. The selected publications are as follows.

1. Synthesis of cubic boron nitride at low temperature & low pressure conditions, Chem. Mater. 2001

   * Hard cheese to hot squeeze, Nature, 2001 (It highlighted the results of the above paper, author: Philip Ball).
* Soft chemistry method developed for the synthesis of cubic boron nitride, MRS Bull. 2001 (It highlighted the results of the above paper, Author: Cora Linda).
2．Synthesis of AlN nanocrystals and their catalytic effect on the polymerization of benzene, Nanotechnology, 2003 (Professor Frank Columbus, the principal Editor of Nova Science Press (USA), invited Prof. Deliang Cui participating the composing of a book entitled “Focus on Nanotechnology Research”)
3．Preparation of GaP/RhB nanocomposite by ultrasonic irradiation, Inorg. Chem. Commun., 2003 (This work was reported by Dr. David Bradley, the member of British Science Writer Association)
4．Phase-selective synthesis of cubic boron nitride in hydrothermal solutions, J. Cryst. Growth, 2004 (Dr. Steven J. Syracus (USA) has given very favorable remarks to the results reported in this paper)
5．The stability and surface reactivity of GaP nanocrystals, Prog. Cryst. Growth & Charact. Mater., 2000
6．A Novel Method for Improving the Performance of ZnO Gas Sensors, Sensors & Actuators B, 2005 (Many colleagues have asked for this paper as soon as it was published online)
7．Low temperature benzene thermal synthesis and characterization of boron nitride nanocrystals, Mater. Lett., 2002
8．Synthesis of AlN nanocrystals in organic solvent at atmospheric pressure, J. Cryst. Growth, 2002
9．The activation of benzene molecules by BN nanocrystals, Mater. Lett., 2002
10．A novel synthetic route to prepare cubic BN nanorods, Mater. Res. Bull., 2002