学习经历：

1990－1994年，山东师范大学物理系本科毕业，获理学学士学位。

1994－1997年，山东师范大学物理系原子与分子物理专业毕业，获理学硕士学位。

2000－2003年，中国科学院固体所博士毕业，获得凝聚态物理博士学位，导师张立德研究员。

2003－2005年，清华大学物理系从事博士后研究工作，合作导师倪军教授。

工作经历：

1997－2000年，烟台大学物理系工作，助教

2000－2003年，烟台大学光电信息学院，讲师

2003－至今，烟台大学物理与电子信息技术学院，教授。

2009－2009年，日本北海道大学电子科学研究所，访问教授

2009－2010年，清华大学物理系，访问教授

2016－2016年，中科院物理所表面物理国家重点实验室孟胜研究组，访问教授

获得的荣誉：

1.国务院政府特殊津贴

2.山东省有突出贡献的中青年专家

3.山东省杰出青年基金获得者

4.教育部新世纪优秀人才支持计划

团队前期取的主要业绩

2020以来，团队以通讯作者在《Advanced Functional Materials》《Physical Review B》、《npj Computational Materials》、《Materials Today Physics》、《Journal of Materials Chemistry A》，《Physical Review Applied》等国际知名期刊上发表了学术论文共计82篇。此外，我们每年还为国际期刊评审超过80篇热电领域的学术论文，这些期刊包括《Nature Communication》、 《Physical Review Letter》、 《Physical Review B》、 《Advanced Material》、 《Advanced Functional Material》、 《Material Today Physics》、 《International Journal of Heat and Mass Transfer》、 《New Journal of Physics》、 《Materials Horizons》，《Ceramics International》、 《ACS Applied Nano Materials》等等。2018年以后课题组毕业的所有研究生均去了985高校和北京市的211高校继续攻读博士学生，因此欢迎有志向攻读名校博士学位，致力于物理学研究、吃苦耐劳、本科有良好物理和计算机基础的研究生加盟我们课题组，想混个硕士学位的同学请你一定绕道，否则会虚度3年的研究生时光。目前，我们课题组每年招收2位硕士研究生，研究生待遇（不包括学校待遇）：600-800元/月/人，一年发12个月。

团队工作的主要特色如下：

（1） 在热电材料领域：团队目前掌握了国际上最先进的计算技术，拥有自主知识产权的软件代码，开发了一款软件包，利用人工智能的压缩感知技术，可以做到考虑材料直到四阶非谐修正的计算方法，从而获得准确的材料的热电性能，这对通过材料基因组技术预测新型热电材料提供了足够的技术手段。

（2） 在超导领域：团队掌握了目前国际上最先进的EPW方法研究电声耦合超导体，开发了一套软件包，国际上首次将非谐性引入超导计算中，并且和美国德克莎斯大学奥斯丁分校EPW开发组的廉超博士一直合作，在计算技术上始终处于国际前沿，对理解超导的基本属性提供了足够的技术储备。

近五年团队主持和参加的课题

1.山东省重大基础研究课题“低维纳米体系中电声耦合相关物性的基础理论研究”，ZR2023ZD09，2024.01-2026.12，资助总经费170万元。主持

2.国家自然科学基金面上项目， 二维强非谐材料中电声耦合的非谐重整及相关电子动力学研究，（12174327）2022.01-2025.12。60万元，主持

3.国家自然科学基金面上项目，裂变产物对核材料热传导性能影响的理论研究（11974302）202001-202312。62万元，主持

4.国家自然科学基金面上项目，量子等离激元的产生和衰变（11774396）201801-202112

（与中科院物理所合作），结题

5.国家自然科学基金青年基金，二维硼纳米材料及其衍生物的电声耦合作用的理论研究（11704322）201801-202012主持， 结题

6.山东省自然科学基金，二维硼基材料的电子结构和超导电性研究(ZR2017BA017）201707-201912主持，结题

7.山东省自然科学基金，室温磁性斯格明子的生成与调控（ZR2019BA009）201907-202206，在研

目前团队研究领域

理论和计算凝聚态物理、能源材料的模拟与设计。

目前主要研究：

1、材料热电特性以及超导特性的第一性原理的研究

2、凝聚态物质的电子结构，纳米材料及分子器件光电性质的模拟研究

3、低维结构量子拓扑特性的理论研究

团队获奖情况：

1、基于第一性原理的新能源材料中有机分子和掺杂及缺陷原子的动力学行为研究，山东省高等学校优秀科研成果奖三等奖。排名：首位

2、量子点及其阵列薄膜体系光电性质的研究 （山东省自然科学二等奖）， 排名：首位

3、低维纳米器件制备和物性研究 （山东省自然科学三等奖），排名：第二位

4、纳米量子点及其阵列体系的光电性质的研究，（山东省高等学校自然科学二等奖） 首位。

5、量子点和量子花样体系的物性研究（山东省高等学校自然科学二等奖） 首位。

6、低维复合薄膜体系的光电性质研究（山东省高等学校自然科学三等奖） 第二位。

7、强关联和低维体系电子态的研究（山东省教委科技进步二等奖） 第三位。

8、量子点体系电子填充性质的研究（烟台大学科技进步一等奖） 首位

9、量子点和量子花样体系物性的研究 （烟台大学科技进步一等奖） 首位

10、低维结构薄膜体系的光电性质研究（烟台大学科技进步一等奖） 第二位。

11、小尺度低维体系光电性质的研究（烟台大学科技进步二等奖）， 首位

12、烟台大学校优秀科研人员

13、烟台大学专业技术拔尖人才

14、中国科学院合肥物质研究院优秀论文奖

目前课题组团队成员

赵银昌，教授，清华大学博士

王君茹，副教授，山东大学博士

苏文霞，讲师，南京大学博士

课题组已经毕业的硕士研究生：

1.宿晓敖，2009年毕业，高级工程师，北京有研亿金新材料有限公司，销售大客户经理

2.李贵通，2011年毕业，高级工程师，双环集团贝迪斯电子有限公司，合金箔电阻技术负责人

3.郭小青，2012年毕业，山东烟台市第四中学高中一级教师

4.赵银昌，2013年毕业，清华大学博士，教授，烟台大学物理与电子信息学院

5.张晓玲，2013年毕业，中国科学院理论物理研究所，院士科研秘书

6.王森，2014年毕业，工业工程师，昆山纬视晶光电有限公司

7.徐雷，2015年毕业，中共临沂市市委机关政务保障中心副主任

8.陈庆玲，2016年毕业，西安芯瞳半导体技术有限公司项目主管

9.高松，2017年毕业，上海星燧影视传媒有限公司副总经理

10.牛文超，2018年毕业，北京工业大学博士，北京加科思新药研发有限公司计算化学研究员

11.杨修先，2019年毕业，北京理工大学博士，江苏师范大学副教授

12.刘建业，2020年毕业，北京工业大学博士

13.钟琦，2021年毕业，南开大学博士

14.王巍强，2022年毕业，北京工业大学博士

15.岳同才，2023年毕业，北京航空航天大学博士

16.肖亚楠，2023年毕业，同济大学博士

17.佘爱先，2024年毕业，西北工业大学博士

18.宋旭豪，2024年毕业，东南大学博士

19.原兴竹，2025年毕业，上海交通大学博士

20.王 跃, 2025年毕业，厦门大学博士

21.刘培培，2025年毕业，大连理工大学博士

22.吕龙超，2026年毕业，北京理工大学博士预录取

23.郭 倩，2026年毕业，东南大学博士预录取

24.王振国，2026年毕业，西安交通大学博士预录取

主要论著

参编专著一部

Zhenhong DaiJinzuo Sun and Jun Ni。Properties of quantum dot and quantum-dot arrays，“Handbook of Semiconductor Nanostructures and Devices”，American Scientific Publishers（美国科学出版社），Chapter 12 Vol.2.

参编教材一部

《模拟电子技术基础》，西安电子科技大学出版社，普通高等教育电子信息类“十三五”课改规划教材。

课题组2018年以来的主要论文目录（共104篇）：

2026年（3月前）

1.Zhenguo Wang, Yinchang Zhao, Jun Ni, and Zhenhong Dai，Revisiting Thermoelectric Transport in 122 Zintl Phases:Anharmonic Phonon Renormalization and Phonon Localization Effects，Materials Today Physics 60 (2026) 101979

2.Yue wang, Yinchang Zhao，Jun Ni，Zhenhong Dai , The Essential Role of Lattice Anharmonicity and Coherent Contributions in YAgTe$_{2}$Physical Review B 113, 024309 (2026)

3.Zhenguo Wang, Yinchang Zhao, Jun Ni, and Zhenhong Dai，Enhanced thermoelectric response driven by lone pair electrons and multivalley band structures in intercalation compounds XNbY$_{2}$ (X = Li, Na; Y = S, Se)Physical Review Applied 25, 014061 (2026)

4.Xingzhu Yuan, Yinchang Zhao, and Zhenhong Dai*, Progress in materials with high thermoelectric properties: A Review,Progress in Natural Science: Materials International 2025

5.Jiawei Cui, Yinchang Zhao, Pengfei Sui, Jun Ni, and Zhenhong Dai, First-Principles Investigation of Synergistic Rattling and Delocalization Effects on Ultralow Lattice Thermal Conductivity and Thermoelectric Performance in Zintl Phase RbSnSb,Physical Review B 113, 094304 (2026)

6.Qian Guo, Yinchang Zhao, Pengfei Sui, Jun Ni, and Zhenhong Dai，Coordinated regulation of ultralow thermal conductivity by strong quartic anharmonic and wave-like phonon transmission，International Journal of Heat and Mass Transfer 254 (2026) 127685

2025年

1.Xingzhu Yuan, Yinchang Zhao, Pengfei Sui, Jun Ni, andZhenhong Dai, Anomalous phonon transport and thermoelectric properties in honeycomb compounds ACuTe (A = Na, K, Rb)’,Journal of Materials Chemistry A Volume: 13 Issue: 7 Pages: 5106-5118 DOI: 10.1039/D4ta07233b

2.Peipei Liu, Yinchang Zhao, Jun Ni and Zhenhong Dai*, Unveiling the Microscopic Originsand Thermoelectric Performance of full-Heusler compounds K2RbSb and Rb2KSb,Journal of Materials Chemistry C 2025, 13, 4511 - 4522, DOI: 10.1039/D4TC03859B

3.Xingzhu Yuan,1 Yinchang Zhao, and Zhenhong Dai*, Typical Thermoelectric Materials: Progress and ProspectsPhysics Letters A Volume: 535 Article Number: 130280 Doi: 10.1016/J.Physleta.2025.130280

4.Aixian She, Yinchang Zhao, Jun Ni, and Zhenhong Dai* The influence of lattice anharmonicity on the thermal transport properties of two-dimensional MgF2, Journal of Physics D: Applied Physics, 58 (2025) 045305

5.Lijun Ni, Yue Wang, Yinchang Zhao, Zhenhong Dai*. Strong impact of fully quartic anharmonicity on thermoelectric properties of Li3X (X= Sb, Bi) compounds,Journal of Physics and Chemistry of Solids203 112697 (2025)

6.Qian Guo, Yinchang Zhao, Pengfei Sui, Jun Ni, and Zhenhong Dai*, Ultralow lattice thermal conductivity of Li2AgSb due to strong quartic anharmonicity,Physical Review B Volume: 111 Issue: 9 Article Number: 094312 Doi: 10.1103/Physrevb.111.094312

7.Wenxia Su, Dunhui Wang *, Dong Wei, Zhenhong Dai, Two-fold enhancement of Curie temperature in monolayer CrI3 by high pressure.Metals, Volume: 15 Issue: 4 Article Number: 398 DOI: 10.3390/Met15040398

8.Zhao Y.; Nie X.; Zeng S.; Wang S.; Li G.; Dai Z..，Superconductivity in hexagonal BC monolayer-based films，Physical Review B Volume: 111 Issue: 17 Article Number: 174524 Doi: 10.1103/Physrevb.111.174524

9.Jiawei Cui, Yinchang Zhao，Yuming Sun，Jun Ni，Zhenhong Dai，Prediction of Thermoelectric Properties of PtSn$\mathit{X}$ ($\mathit{X}$=Ti,Zr) based on First-Principles Calculations.Acs Applied Energy Materials Volume: 8 Issue: 12 Pages: 8388-8398 DOI: 10.1021/Acsaem.5c00889

10.Qilin Wei; Tongtong Kou; Shuaigang Ge; Liang Wang; Ruosheng Zeng; Zhenhong Dai; Tong Chang; Bingsuo Zou. First-principles calculations on the optical physical properties of intrinsic and transition metal Mn, Fe doped point defects in hexagonal CsCdCl3,Materials Research Bulletin 192 (2025) 113616

11.Shuangshuang Luan，Rattling-induced effects of Ag atoms and anomalous phonon transport along with thermoelectric performance in silver-based chalcopyrite AgGaX2 (X = Se, Te)Materials Today Physics56 (2025) 101769

12.Yunfei Wang，Enhanced thermoelectric performance driven by the rattling effect and unique electronic structure in layered nitrides SrMN2 (M = Zr, Hf).Physica E-Low-Dimensional Systems & Nanostructures Volume: 173 Article Number: 116320 Doi: 10.1016/J.Physe.2025.116320

13.Ning Liu, Min He, Yinchang Zhao, Jun Ni, and Zhenhong Dai. Unveiling the Thermoelectric Potential of KBaBi: A Deep Dive into High-Temperature Stability and Thermoelectric Performance，European Physical Journal B Volume: 98 Issue: 9 Article Number: 184 Doi: 10.1140/Epjb/S10051-025-01006-0

14.Chenglin Li; Yinchang Zhao; Zhenhong Dai Junru Wang，A theoretical study of novel Rh2P2 and their analogs for electrocatalytic hydrogen evolution reactions，Journal of Physics and Chemistry of Solids 208 (2026) 113022.

15.Yuxuan Qi; Yi-Si Feng; Zhiquan Cai; Junru Wang; Zhenhong Dai，Coordination immobilization of palladium ions in the novel three-dimensional cerium porphyrin metal-organic framework for enhanced photocatalytic carbon dioxide reduction，Journal of Colloid and Interface Science 700 (2025) 138528

16.Yufeng Liang, Yinchang Zhao, Xichang Wang, Jun Ni and Zhenhong Dai , Investigation of Rattlers-Induced Low Thermal Conductivity and Anomalous Optical Phonon Branch Contribution in CsCaX (X=Bi, P).Physical Review Applied Volume: 24 Issue: 3 Article Number: 034028DOI: 10.1103/dby1-kn78

17.Xiaoying Zhang, Qian Guo, Yinchang Zhao, Zhenhong Dai, Unveiling Coherent Lattice Thermal Conductivity in Strongly Quartically Anharmonic Halide Perovskites，Physics Letters A Volume: 560 Article Number: 130916DOI: 10.1016/j.physleta.2025.130916

18.Xinrui Li, Yinchang Zhao, Pengfei Sui, Jun Ni, Zhenhong Dai. Directional dependence of thermoelectric properties inNa2AgAs: Contributions of in-plane rattling and multiple energy valleys，Journal of Applied Physics，Volume: 138 Issue: 10 Article Number:105101DOI: 10.1063/5.0287029

19.Jiawei Cui, Yinchang Zhao, Jun Ni, and Zhenhong Dai，Microscopic Mechanism of Low Lattice Thermal Conductivity Induced by Strong Anharmonic Vibrations in Thermoelectric Zintl Compounds KXAs (X = Sn, Ge)，Chinese Journal of Physics Volume: 98DOI:10.1016/j.cjph.2025.08.037

20.Lijun Ni, Yinchang Zhao, Yue Wang, Weisong Li, and Zhenhong Dai. Unveiling Exceptional Thermoelectric Performance in Non-Layered X2S2 (X = K, Rb) via Coexistence of the Flat Band and High Dispersion: Ultralow Lattice Thermal Conductivity and High Anisotropic ZT Values，Journal of Physical Chemistry C Volume: 129 Issue: 39 Pages: 17420-17436 DOI: 10.1021/acs.jpcc.5c04129

21.Qian Guo, Yinchang Zhao, Jun Ni, and Zhenhong Dai Thermoelectric Performance of Li-Based Heusler Compounds: A Multiscale Computational Review，Physical Chemistry Chemical Physics Volume: 27 Issue: 42 Pages: 22319-22342，DOI: 10.1039/d5cp03200h

22.Jiaweicui yinchang zhao, zhenhong Dai. Multiscale Synergistic Optimization of Thermoelectric Materials: From Structural Regulation to Mechanistic Innovation，Journal of Physics-Condensed Matter Volume: 37 Issue: 44 Article Number: 443002DOI: 10.1088/1361-648X/ae14c9

23.Xinrui Li, Yinchang Zhao, Pengfei Sui, Jun Ni, Zhenhong Dai. Anomalous and Ultralow Axial Thermal Conductivity in Layered XAgO$_2$ (X = K, Rb, Cs) Driven by Bonding Anisotropy and Rattling-like Vibrations，Physica E-Low-Dimensional Systems & Nanostructures Volume: 175 Article Number: 116400DOI: 10.1016/j.physe.2025.116400

24.Wang, Junru; Liu, Zhichao; Zhao, Yinchang; Dai, Zhenhong, Ferromagnetic Two-Dimensional Fe3GaTe2 and Ni-Doped Fe3GaTe2 as Electrocatalysts for Lithium-Sulfur Batteries: a First-Principles Study，Physical Chemistry Chemical Physics Volume: 27 Issue: 29 Pages: 15714-15722DOI: 10.1039/d5cp01957e

25.Longchao Lv, Yinchang Zhao, Jun Ni, and Zhenhong Dai，Unconventional Lattice Thermal Transport and Potentially Excellent Thermoelectric Performance in Eight Alkali-Metal Half-Heusler Compounds AMgX (A = Li, Na, K, Rb; X = As, Sb, Bi)PHYSICAL REVIEW B 112, 224304 (2025)

2024年

1.Yue Wang, Yinchang Zhao, Jun Ni, andZhenhong Dai*，First-principles study of the effects of high-order anharmonicity on the thermal transport properties and thermoelectric effects in the lattice dynamics of 12 new full-Heusler compounds X2YTe (X = Na, K, Rb, Cs; Y = Zn, Cd, Hg)，Advanced Functional Materials，2024

2.Xingzhu Yuan ,Yinchang Zhao, Yuming Sun,Jun Ni,andZhenhong Dai*,Influence of quartic anharmonicity on lattice dynamics and thermal transport properties of 16 antifluorite structures,Physical Review B 110, 014304(2024)SCIE.第一标注

3.Peipei Liu, Yinchang Zhao, Jun Ni, andZhenhong Dai*, Influence of anharmonicity on the thermoelectric properties of alkali antimonide compounds M3Sb (M = Na,K, Rb, Cs),Physical Review Applied22, 034049(2024)SCIE.第一标注

4.Yue Wang, Yinchang Zhao*, Jun Ni, andZhenhong Dai*, Effects of Rattling Behavior of K and Cd Atoms along Different Directions in Anisotropic KCdAs on Lattice Thermal Transport and Thermoelectric Properties,Energy Environ. Mater.0, e12764,(2024)SCIE.第一标注

5.Longchao Lv , Yinchang Zhao, Jun Ni,Zhenhong Dai*, Comparison of the excellent thermoelectric properties of the half-Heusler compounds RbMgSb with a host-guest structure and LiMgSb,Results in Physics63 107865,(2024)SCIE.第一标注

6.Xuhao Song, Yinchang Zhao, andZhenhong Dai*, Research Progress on Transport Mechanisms of Materials with Intrinsically High Thermoelectric Performance,Adv. Quantum Technol.2024, 2400020SCIE.第一标注

7.Qian Guo ; Yinchang Zhao ; Yuming Sun; Jun Ni ;Zhenhong Dai*, Comparison of ultra-low lattice thermal conductivity of the full-Heusler compound Li2Rb(Cs)Bi after considering strong quartic anharmonicity,J. Appl. Phys. 136, 105102(2024)SCIE.第一标注

8.Yue Wang ; Yinchang Zhao ; Sheng Meng ; Jun Ni ;Zhenhong Dai*,Effects of Pd atom vibration in the Sr–Te octahedral interstitial space in Zintl compound SrPdTe on lattice anharmonicity and thermoelectric properties,J. Chem. Phys. 160, 054108(2024)SCIE.第一标注

9.Zhenguo Wang, Yinchang Zhao, Baolong Xu, Jun Ni,Zhenhong Dai*,Excellent thermoelectric properties and significant anisotropy for filled-tetragonal NaZnAs caused by strong anharmonicity,Journal of Physics and Chemistry of Solids 195 (2024 ) 112275.SCIE.第一标注

10.Yufeng Liang, Yinchang Zhao∗, Jun Ni,Zhenhong Dai∗, Low lattice thermal conductivity of CsMgBi with layered structure,Materials Today Communications 40 (2024) 110186SCIE.第一标注

11.Peipei Liu, Yinchang Zhao, * Xichang Wang, Jun Ni andZhenhong Dai*, Study on lattice dynamics and thermal conductivity of fluorite AF2 (A = Ca, Sr, Ba) based on first principles calculations,Phys. Chem. Chem. Phys.,2024, 26, 10868SCIE.第一标注

12.Junru Wang, Zhichao Liu Yinchang Zhao,Zhenhong Dai,aJuan Hua and Mingwen Zhao, Two-dimensional phosphorus carbides (b-PC) as highly efficient metal-free electrocatalysts for lithium–sulfur batteries: a first-principles study,Phys. Chem. Chem. Phys., 2024, 26, 21642SCIE

13.Qiaoshuang Zou, Qinghu Sun ·Zhenhong Dai· Shuanghong Ding, Efficient passively Q-switched Nd: KGW/Cr4+:YAG self-Raman laser,Applied Physics B (2024) 130:150

2023年

1.Tongcai Yue; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*;Strong quartic anharmonicity, ultralow thermal conductivity, high band degeneracy and good thermoelectric performance in Na2TlSb,npj Computational Materials, 2023, 9(17).SCIE.第一标注

2.Xuhao Song; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Strong anharmonic phonon scattering and superior thermoelectric properties of Li2NaBi,Materials Today Physics, 2023, 31：100990.SCIE.第一标注

3.Tongcai Yue; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*;Microscopic mechanism of low lattice thermal conductivity in natural superlattice materials BaXYF (X = Cu, Ag; Y = Se, Te) including fully quartic anharmonicity,Physical Review B, 2023, 107：024301-1.SCIE.第一标注

4.Xuhao Song; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai; High thermoelectric performance in XAgSe2 (X = Sc, Y) from strong quartic anharmonicity and multivalley band structure,Journal of Materials Chemistry A,2023, 11(32)：17138-17144. SCIE.第一标注

5.xuhao song; Yinchang Zhao; Min He; Jun Ni; Sheng Meng;Zhenhong Dai*;Thermoelectric transport properties of orthorhombic RbBaX (X = Sb, Bi) with strong anharmonicity,The Journal of Chemical Physics, 2023, 158(1)：014107-1-014107-10. SCIE.第一标注

6.Aixian She; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Investigation on transport properties and anomalously heat-carrying optical phonons in KXY (X = Ca, Mg; Y = Sb, Bi),International Journal of Heat and Mass Transfer, 2023, 209：124132.SCIE.第一标注

7.Weiqiang Wang; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Ab initio investigations on lattice dynamics and thermal transport properties of ThO2,Materials Chemistry and Physics, 2023, 307：128138.SCIE.第一标注

8.xuhao song; Yinchang Zhao; xichang wang; Jun Ni; Sheng Meng;Zhenhong Dai*; Strong anharmonicity and high thermoelectric performance of cubic thallium-based uoride perovskitesTlXF3(X = Hg, Sn, Pb), Physical Chemistry Chemical Physics, 2023, 00.SCIE.第一标注

9.AX She; YC Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Correlation of rattlers with thermal tran -sport and thermoelectric performance,Physical Chemistry Chemical Physics, 2023, 105134.SCIE.第一标注

10.Peipei Liu; Yinchang Zhao; Jianying Cui; Jun Ni; Sheng Meng;Zhenhong Dai*; The influence of strong anharmonicity on high thermoelectric properties for the ternary compound NaMgX (X = As, Sb),Chemical Physics Letters, 2023, 823：140521.SCIE.第一标注

11.Yue Wang; Yinchang Zhao; Baolong Xu; Jun Ni; Sheng Meng;zhenhong dai*; Study on the thermoelectric characteristics of the ternary alkali metal compound XMgSb (X = K, Rb, Cs),Journal of Physics D: Applied Physics, 2023, 56：405502. SCIE.第二标注

12.Yanan Xiao; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Phonon hardening and the effect of phonon transport in cubic antiperovskites A3FB (A = Li, Na; B = Se, Te) induced by quartic anharmonicity,Materials Today Communications, 2023, 35：105450.SCIE.第一标注

13.AiXian She; Yuming Sun; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Transport and thermoelectric properties of strongly anharmonic Full-Heusler compounds CsK2M(M=As, Bi),Materials Today Communications, 2023, 34：105134.SCIE第一标注

14.Aixian She; Yinchang Zhao; Jun Ni; Sheng Meng;Zhenhong Dai*; Thermoelectric performance of Zintl compound KMgBi with layered structure, Journal of Physics and Chemistry of Solids, 2023, 178：111308. SCIE.第一标注

15.Xingzhu Yuan;Zhenhong Dai*; Yinchang Zhao; Jun Ni; Sheng Meng; Yuming Sun; The filled tetrahedral compound NaZnP with strong quartic anharmonicity and good thermoelectric properties,Physics Letters A, 2023, 483：129061.SCIE.第一标注

16.xingzhu yuan; Yinchang Zhao; Jun Ni; Sheng Meng;zhenhong dai*; Thermoelectric Transport Properties of Metal Phosphide XLiP (X=Sr,Ba),Journal of Physics: Condensed Matter, 2023, 35(15)：155501. SCIE.第一标注

17.Jingyi Cai, Yong Zhang,* Xueru Zhang, Jiewu Cui, Yan Wang, Jiaqin Liu, Shulin Ji,Zhenhong Dai,and Yucheng Wu* Niobium and Fluorine Dually Doped Titanium Oxide Nanosheet Arrays for Selective Dual-Band Electrochromic Applications.ACS Appl. Nano Mater. 2023, 6, 10256−10268

18.Junru Wang , , Zhichao Liu ,Zhenhong Dai, Xiaohan Song, Xiaobiao Liu, Multifunctional catalytic activity of Cu 3 N (001) surface: A first-principles study,ChemPhysMater 2 (2023) 231–238

2022年

1.Thermal transport properties of anisotropic materials RbCaX (X = As, Sb) with strong anharmonicity，Computational Materials Science213 (2022) 111618。2022.07，Xuhao Song, Yinchang Zhao, Jun Ni, Sheng Meng , Zhenhong Dai.通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

2.The ultra-low lattice thermal conductivity dominated by the quartic anharmonicity in Bi-based binary compounds A3Bi (A = K, Rb).Europhysics Letters, 138 (2022) 56001,2022.05,Weiqiang Wang, Xichang Wang, Yinchang Zhao, Sheng Meng and Zhenhong Dai，通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

3.High thermal conductivity of carbon allotropes and its relationship with mechanical properties: A first-principles study.International Journal of Thermal Sciences176 (2022) 107481 2022.02. Yanan Xiao, Junru Wang, Yinchang Zhao, Sheng Meng, Zhenhong Dai.通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

4.Low lattice thermal conductivity of hydride-based cubic antiperovskites A3HB (a = Li, Na; B = S, se, Te) with higherorder anharmonicity correctionInternational Journal of Energy Research. 2022;1–11. 2022.02. Yanan Xiao, Pengfei Sui,Yinchang Zhao,Jun Ni, Sheng Meng, Zhenhong Dai，通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

5.Ultra-low lattice thermal conductivity and anisotropic thermoelectric transport properties in Zintl compound b-K2Te2.Physical Chemistry Chemical Physics，2022, Tongcai Yue, Baolong Xu, Yinchang Zhao, Sheng Meng and Zhenhong Dai.通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

6.Study on the thermoelectric properties of p-type doped CsCdF3and CsHgF3with quartic anharmonicityPhysics Letters A，428(2022)127946 2022.01. WeiqiangWang, MinHe, YinchangZhao, ShengMeng, ZhenhongDai.通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

7.Theoretical prediction of mechanics, transport, and thermoelectric properties of full Heusler compounds Na2KSb and X2CsSb (X = K, Rb) .Physical Review B105, 184304 (2022) 2022.05, TongcaiYue, Pengfei Sui, Yinchang Zhao, Jun Ni, Sheng Meng, and Zhenhong Dai.通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

8.Thermoelectric performance in the binary semiconductor compound A2Se2 (A = K, Rb) with host-guest structure.Physical Review B105, 054305 (2022). Tongcai Yue, Yuming Sun, Yinchang Zhao, Sheng Meng, and Zhenhong Dai.通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

2021年

1.Lattice thermal conductivity including phonon frequency shifts and scattering rates induced by quartic anharmonicity in cubic oxide and fluoride perovskites，Yinchang Zhao, Yinchang Zhao , Shuming Zeng, Geng Li, Chao Lian , Zhenhong Dai, Sheng Meng, and Jun Ni，Physical Review B104, 224304 (2021).通讯作者地址：Zhao, Yinchang，Dai, Zhenhong，Yantai Univ, Sch Optoelect Informat Sci & Technol, Yantai 264005, Peoples R China

2.Low lattice thermal conductivity and high figure of merit in n-type doped full-Heusler compounds X2YAu (X = Sr, Ba; Y = as, Sb) Wang, WQ (Wang, Weiqiang) Dai, ZH* (Dai, Zhenhong) Wang, XC (Wang, Xichang) Zhong, Q (Zhong, Qi) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)，International Journal of Energy Research，卷45期15，页20949-20958，2021.12，DOI10.1002/er.7154通讯作者地址：Dai, Zhenhong;Zhao, Yinchang，Yantai Univ, Sch Optoelect Informat Sci & Technol, Yantai 264005, Peoples R China

3.Ultra-low lattice thermal conductivity and high thermoelectric efficiency of K3AuO，Zhong, Q (Zhong, Qi) ,Dai, ZH (Dai, Zhenhong),Wang, JP (Wang, Junping).Zhao, YC (Zhao, Yinchang), Meng, S (Meng, Sheng),Journal of Applied Physics,卷130,期4,文献号045101, DOI10.1063/5.0056604通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

4.A comprehensive phonon thermal transport study of 2D hexagonal MX2 and orthorhombic M2X3 (M = Ni, Pd; X = S, Se and Te), Zhong, Q (Zhong, Qi) Dai, ZH (Dai, Zhenhong) Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng) ,Materials Today Communications卷25文献号101441,DOI10.1016/j.mtcomm.2020.101441,出版时间DEC 2020通讯作者地址Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

5.Low thermal conductivity and good thermoelectric performance in mercury chalcogenides, Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Dai, ZH (Dai, Zhenhong) Ni, J (Ni, Jun), Meng, S (Meng, Sheng),Computational Materials Science,卷188, DOI10.1016/j.commatsci.2020.110192,出版时间FEB 15 2021通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

6.Two-Dimensional Conductive Metal−Organic Frameworks as Highly Efficient Electrocatalysts for Lithium−Sulfur Batteries,ACS Appl. Mater. Interfaces2021, 13, 61205−61214. Junru Wang, Feng Li, Zhichao Liu, Zhenhong Dai, Shuxia Gao, and Mingwen Zhao

2020年

1.Phonon thermal transport in Janus single layer M2XY (M = Ga; X, Y = S, Se, Te): A study based on first-principles，zhong, Q (Zhong, Qi) Dai, ZH (Dai, Zhenhong) Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Meng, S(Meng, Sheng)Physica E-Low-Dimensional Systems & Nanostructures卷115，文献号113683 DOI10.1016/j.physe.2019.113683，出版时间JAN 2020通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

2.The structural, electronic and optic properties in a series of M2XY (M = Ga, In; X,Y = S, Se, Te) Janus monolayer materials based on GW and the Bethe-Salpeter equation，Liu, JY (Liu, Jianye) Yang, XX (Yang, Xiuxian) Dai, ZH (Dai, Zhenhong) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)EuropeanPhysical Journal B，卷93期7 DOI10.1140/epjb/e2020-100408-0出版时间JUL 13 2020通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

3.Quartic anharmonicity and ultra-low lattice thermal conductivity of alkali antimonide compounds M3Sb (M = K, Rb and Cs) Zhong, Q (Zhong, Qi) Dai, ZH (Dai, Zhenhong) Wang, WQ (Wang, Weiqiang) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)，International Journal of Energy Research，卷45期5页6958-6965 DOI10.1002/er.6284出版时间APR 2021在线发表DEC 2020通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

4.A comprehensive study of phonon thermal transport in 2D IV-VI semiconductors MX (M = Ge, Sn; X = S, Se)Zhong, Q (Zhong, Qi) Dai, ZH (Dai, Zhenhong) Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)，Physics Letters A，卷384期27，DOI10.1016/j.physleta.2020.126676，出版时间SEP 28 2020。通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

5.Low lattice thermal conductivity and high figure of merit in p-type doped K3IO，Wang, WQ (Wang, Weiqiang) Dai, ZH (Dai, Zhenhong) Zhong, Q (Zhong, Qi) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng) Chinese Physics B，卷29期12 DOI10.1088/1674-1056/abab83，出版时间DEC 2020通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

6.First-principles study of phonon thermal transport in II-VI group graphenelike materials。Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Wang, WQ (Wang, Weiqiang) Zhong, Q (Zhong, Qi) Dai, ZH (Dai, Zhenhong) Meng, S (Meng, Sheng)，Journal of Vacuum Science & Technology A，卷38期6 DOI10.1116/6.0000376，出版时间DEC 2020通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

7.Quartic anharmonicity and anomalous thermal conductivity in cubic antiperovskites A(3)BO (A = K, Rb; B = Br, Au) Zhao, YC (Zhao, Yinchang) Lian, C (Lian, Chao) Zeng, SM (Zeng, Shuming) Dai, ZH (Dai, Zhenhong) Meng, S (Meng, Sheng) Ni, J (Ni, Jun)，Physical Review B卷101期18DOI10.1103/PhysRevB.101.184303出版时间MAY 7 2020通讯作者地址Zhao, Yinchang;Dai, Zhenhong Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

8.MgB4 trilayer film: A four-gap superconductor，Zhao, YC (Zhao, Yinchang) Lian, C (Lian, Chao)Zeng, SM (Zeng, Shuming) Dai, ZH (Dai, Zhenhong) Meng, S (Meng, Sheng) Ni, J (Ni, Jun)，Physical Review B卷101期10 DOI10.1103/PhysRevB.101.104507

9.Anomalous electronic and thermoelectric transport properties in cubic Rb3AuO antiperovskite，Zhao, YC (Zhao, Yinchang) Lian, C (Lian, Chao) Zeng, SM (Zeng, Shuming) Dai, ZH (Dai, Zhenhong) Meng, S (Meng, Sheng) Ni, J (Ni, Jun)，Physical Review B卷102期9 DOI10.1103/PhysRevB.102.094314，出版时间SEP 28 2020

2019年

1.The excellent TE performance of photoelectric material CdSe along with a study of Zn(Cd)Se and Zn(Cd)Te based on first-principles，Zhong, Q (Zhong, Qi)，Dai, ZH (Dai, Zhenhong) Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)RSC ADVANCES卷9期44页25471-25479 DOI10.1039/c9ra04748d出版时间AUG 18 2019通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

2.Pressure induced excellent thermoelectric behavior in skutterudites CoSb3 and IrSb3，Yang, XX (Yang, Xiuxian)Dai, ZH (Dai, Zhenhong) Zhao, YC (Zhao, Yinchang) Niu, WC (Niu, Wenchao) Liu, JY (Liu, Jianye) Meng, S (Meng, Sheng)Physical Chemistry Chemical Physics卷21期2页851-858DOI10.1039/c8cp04301a出版时间JAN 14 2019通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

3.Comprehensive calculations and prominent thermoelectric properties of Li3P and Li3As，Zhong, Q (Zhong, Qi) Dai, ZH (Dai, Zhenhong) Liu, JY (Liu, Jianye) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)Physics Letters A卷383期23页2802-2808DOI10.1016/j.physleta.2019.05.048出版时间AUG 12 2019通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

4.Two-gap and three-gap superconductivity in AlB2-based films，Zhao, YC (Zhao, Yinchang) Lian, C (Lian, Chao) Zeng, SM (Zeng, Shuming) Dai, ZH (Dai, Zhenhong) Meng, S (Meng, Sheng) Ni, J (Ni, Jun)Physical Review B卷100期9DOI10.1103/PhysRevB.100.094516出版时间SEP 10 2019

5.Computational predicting spin semiconductors and half metals from doped phosphorene monolayers, JH Feng，G Li，XF Meng，XD Jian，ZH Dai，YC Zhao，Z Zhou.Frontiers of Physicsvolume 14, Article number: 43604 (2019).10.1007/s11467-019-0904-5

6.Ab initio study on anisotropic thermoelectric transport in ternary pnictide KZnP, Jian Liu, Yinchang Zhao Chao Lian, Zhenhong Dai , Jia-Tao Sun and Sheng Meng,J.Phys.:Mater.2 (2019) 024001https://doi.org/10.1088/2515-7639/ab05ea通讯作者地址:E-mail: zhdai@ytu.edu.cn, jtsun@iphy.ac.cn andsmeng@iphy.ac.cn

2018年

1.Adsorptions of metal adatoms on graphene-like BC3 and their rich electronic properties: A first-principles study，Sui, PF (Sui, Pengfei) Dai, JQ (Dai, Jiaqi) Zhao, YC (Zhao, Yinchang) Dai, ZH (Dai, Zhenhong)Chinese Physics B卷27期9，DOI10.1088/1674-1056/27/9/097311，出版时间SEP 2018通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

2.Low lattice thermal conductivity and excellent thermoelectric behavior in Li3Sb and Li3Bi，Yang, XX (Yang, Xiuxian) Dai, ZH (Dai, Zhenhong) Zhao, YC (Zhao, Yinchang) Liu, JY (Liu, Jianye) Meng, S (Meng, Sheng)，Journal Of Physics-Condensed Matter卷30期42 DOI10.1088/1361-648X/aade17出版时间OCT 24 2018通讯作者地址Dai, Zhenhong;Zhao, Yinchang，Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

3.Lattice thermodynamic behavior in nuclear fuel ThO2 from first principles，Liu, JY (Liu, Jianye) Dai, ZH (Dai, Zhenhong) Yang, XX (Yang, Xiuxian) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng).Journal of Nuclear Materials卷511页11-17DOI10.1016/j.jnucmat.2018.08.054出版时间DEC 1 2018通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

4.Phonon thermal transport in monolayer FeB2 from first principles，Yang, XX (Yang, Xiuxian) Dai, ZH (Dai, Zhenhong) Zhao, YC (Zhao, Yinchang) Meng, S (Meng, Sheng)Computational Materials Science卷147页132-136，DOI10.1016/j.commatsci.2018.01.050出版时间MAY 2018通讯作者地址: Dai, Zhenhong, Yantai Univ, Dept Phys, Yantai 264005, Peoples R China

5.Phonon thermal transport in a class of graphene allotropes from first principles，Yang, XX (Yang, Xiuxian) 1Dai, ZH (Dai, Zhenhong) Zhao, YC (Zhao, Yinchang)Meng, S (Meng, Sheng)Physical Chemistry Chemical Physics卷20期23页15980-15985DOI10.1039/c8cp00987b出版时间JUN 21 2018通讯作者地址Dai, Zhenhong Yantai Univ, Sch Optoelect Informat Sci & Technol, Yantai 264005, Peoples R China

6.Multigap anisotropic superconductivity in borophenes，Zhao, YC (Zhao, Yinchang) Zeng, SM (Zeng, Shuming) Lian, C (Lian, Chao)Dai, ZH (Dai, Zhenhong) Meng, S (Meng, Sheng) Ni, J (Ni, Jun)，Physical Review B卷98期13，DOI10.1103/PhysRevB.98.134514，出版时间OCT 26 2018

7.Intrinsic electronic transport and thermoelectric power factor in n-type doped monolayer MoS2，Zhao, YC (Zhao, Yinchang) Dai, ZH (Dai, Zhenhong) Zhang, C (Zhang, Chao) Lian, C (Lian, Chao) Zeng, SM (Zeng, Shuming) Li, G (Li, Geng) Meng, S (Meng, Sheng)Ni, J (Ni, Jun)New Journal Of Physics，卷20，DOI10.1088/1367-2630/aab338出版时间APR 12 2018通讯作者地址Zhao, Yinchang;Dai, Zhenhong，Yantai Univ, Dept Phys, Yantai, Peoples R China

8.Robust quantum spin Hall state and quantum anomalous Hall state in graphenelike BC3 with adatoms，Zhao, YC (Zhao, Yinchang) Chen, X (Chen, Xi) Dai, ZH (Dai, Zhenhong)，Zhang, C (Zhang, Chao)，Lian, C (Lian, Chao)，Zeng, SM (Zeng, Shuming)，Meng, S (Meng, Sheng) Ni, J (Ni, Jun)，New Journal Of Physics卷20，DOI10.1088/1367-2630/aad357出版时间JUL 26 2018通讯作者地址Zhao, Yinchang;Dai, Zhenhong，Yantai Univ, Dept Phys, Yantai, Peoples R China

9.First-principles energy and vibration spectrum simulations of Cr/V interacting with H in W-based alloy in a fusion reactor, Song Gao, Yue-Lin Liu, Zhen-Hong Dai, Quan-Fu Han & Fang Ding.Journal of Nuclear Science And Technology, VOL. 55, NO. 2123-137.doi.org/10.1080/00223131.2017.1383210

10.Mechanical anisotropy and ideal strength of ThBC, Xiao-Xue Qu, Kuan Cao, Hong Jiang, Yin-Chang Zhao, Zhen-Hong Dai, Yue-Hua Su, Chao Zhang.Journal of Physics And Chemistry of Solids122 (2018) 203–209. /doi.org/10.1016/j.jpcs.2018.06.030

联系方法

通讯地址：山东省烟台市烟台大学物理与电子信息学院

电子邮件：zhdai@ytu.edu.cn

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