目录：

A. Journal articles

B. Monographs

C. Patents

D. Software copyright

A. Journal articles: back

Reconfigurable, zero-energy, and wide-temperature loss-assisted thermal non-reciprocal metamaterials

Min Lei, Peng Jin, Yuhong Zhou, Ying Li, Liujun Xu, and Jiping Huang

Proceedings of the National Academy of Sciences of the United States of America (PNAS), volume 121, e2410041121 (2024)

Topological thermal transport

Z. F. Liu, P. Jin, M. Lei, C. M. Wang, F. Marchesoni, J.-H. Jiang, and J. P. Huang

Nature Reviews Physics, volume 6, 554 (2024). doi.org/10.1038/s42254-024-00745-w

Free-form and multi-physical metamaterials with forward conformality-assisted tracing

L. J. Xu, G. L. Dai, F. B. Yang, J. R. Liu, Y. H. Zhou, J. Wang, G. Q. Xu, J. P. Huang, and C.-W. Qiu

Nature Computational Science, volume 4, 532-541 (2024)

News & views [Nature Computational Science, volume 4, 477-478 (2024) ]

Higher-order topological in-bulk corner state in pure diffusion systems

Zhoufei Liu, Pei-Chao Cao, Liujun Xu, Guoqiang Xu, Ying Li, and Jiping Huang

Physical Review Letters, volume 132, 176302 (2024) 

Controlling mass and energy diffusion with metamaterials

Fubao Yang, Zeren Zhang, Liujun Xu, Zhoufei Liu, Peng Jin, Pengfei Zhuang, Min Lei, Jinrong Liu, Jian-Hua Jiang, Xiaoping Ouyang, Fabio Marchesoni, and Jiping Huang

Reviews of Modern Physics, volume 96, 015002 (2024)

Preprint at http://arxiv.org/abs/2309.04711

Phase reentrances and solid deformations in confined colloidal crystals

X. X. Li, H. Fang, K. Sankaewtong, M. H. Li, Y. S. Chen, J. P. Huang, R. Ni, H. Tanaka, and P. Tan

Physical Review Letters, volume 132, 018202 (2024)

Deep learning-assisted active metamaterials with heat-enhanced thermal transport

P. Jin, L. J. Xu, G. Q. Xu, J. X. Li, C.-W. Qiu, and J. P. Huang

Advanced Materials, volume 36, 2305791 (2024)

Adaptive multi-temperature control for transport and storage containers enabled by phase change materials
X. C. Zhou, X. Xu, and J. P. Huang
Nature Communications, volume 14, 5449 (2023)

Giant, magnet-free, and room-temperature Hall-like heat transfer

L. J. Xu, J. R. Liu, G. Q. Xu, J. P. Huang, and C.-W. Qiu 

Proceedings of the National Academy of Sciences of the United States of America (PNAS), volume 120, e2305755120 (2023) 

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Supporting Information

Diffusion metamaterials
Z. R. Zhang, L. J. Xu, T. Qu, M. Lei, Z.-K. Lin, X. P. Ouyang, J.-H. Jiang, and J. P. Huang 
Nature Reviews Physics, volume 5, 218 (2023) 

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Visualizing slow internal relaxations in a two-dimensional glassy system
Y. S. Chen, Z. F. Ye, K. X. Wang, J. P. Huang, H. Tong, Y. L. Jin, K. Chen, H. Tanaka, and P. Tan 
Nature Physics, volume 19, 969-977  (2023) 

Tunable liquid-solid hybrid thermal metamaterials with a topology transition
P. Jin, J. R. Liu, L. J. Xu, J. Wang, X. P. Ouyang, J.-H. Jiang, and J. P. Huang 
Proceedings of the National Academy of Sciences of the United States of America (PNAS), volume 120, e2217068120 (2023)

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Supporting Information

Thermal Willis coupling in spatiotemporal diffusive metamaterials
L. J. Xu, G. Q. Xu, J. X. Li, Y. Li, J. P. Huang, and C.-W. Qiu 
Physical Review Letters, volume 129, 155901 (2022) 

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Supplemental Material

Diffusive Fizeau drag in spatiotemporal thermal metamaterials
L. J. Xu, G. Q. Xu, J. P. Huang, and C.-W. Qiu 
Physical Review Letters, volume 128, 145901 (2022) 

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Supplemental Material

Fast crystal growth at ultra-low temperatures
Q. Gao, J. D. Ai, S. X. Tang, M. H. Li, Y. S. Chen, J. P. Huang, H. Tong, L. Xu, L. M. Xu, H. Tanaka, and P. Tan 
Nature Materials, volume 20, 1431-1439 (2021) 

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Supplementary Information

Controlling macroscopic heat transfer with thermal metamaterials: Theory, experiment and application
S. Yang, J. Wang, G. L. Dai, F. B. Yang, and J. P. Huang 
Physics Reports, volume 908, 1-65 (2021) 

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Temperature trapping: Energy-free maintenance of constant temperatures as ambient temperature gradients change
X. Y. Shen, Y. Li, C. R. Jiang, and J. P. Huang 
Physical Review Letters, volume 117, 055501 (2016) 

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Featured in Physics as a Focus (PDF format): Physics 9, 89 (2016)

Temperature-dependent transformation thermotics: From switchable thermal cloaks to macroscopic thermal diodes
Y. Li, X. Y. Shen, Z. H. Wu, J. Y. Huang, Y. X. Chen, Y. S. Ni, and J. P. Huang 
Physical Review Letters, volume 115, 195503 (2015) 

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PRL cover (Fig.4(b,d))
Supplemental Material

Experimental econophysics: Complexity, self-organization, and emergent properties
J. P. Huang 
Physics Reports, volume 564, 1-55 (2015) 

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Coalescence of pickering emulsion droplets induced by an electric field
G. Chen, P. Tan, S. Y. Chen, J. P. Huang, W. J. Wen, and L. Xu 
Physical Review Letters (PRL) volume 110, 064502 (2013) 

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Herd behavior in a complex adaptive system
L. Zhao, G. Yang, W. Wang, Y. Chen, J. P. Huang, H. Ohashi, and H. E. Stanley 
Proceedings of the National Academy of Sciences of the United States of America (PNAS) volume 108, 15058-15063 (2011) 

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Optical negative refraction in ferrofluids with magneto-controllability
Y. Gao, J. P. Huang, Y. M. Liu, L. Gao, K. W. Yu, X. Zhang 
Physical Review Letters (PRL) volume 104, 034501 (2010) 

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Special report from New Scientist
Special report from Science News
《科学时报》头版报道及相关内容

Heterogeneous preferences, decision-making capacity and phase transitions in a complex adaptive system
W. Wang, Y. Chen, and J. P. Huang 
Proceedings of the National Academy of Sciences of the United States of America (PNAS) volume 106, 8423-8428 (2009) 

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Corrections in PDF

Shaped graded materials with an apparent negative thermal conductivity 
C. Z. Fan, Y. Gao, and J. P. Huang 
Applied Physics Letters volume 92, 251907 (2008) 
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(1) Here we established, for the first time, transformation thermophysics （or transformation thermodynamics or thermotics as also used by some other researchers) by designing a thermal cloak and proposing some novel thermal properties. In 2010, we published another relevant paper, J. Y. Li, Y. Gao, and J. P. Huang, Journal of Applied Physics 108, 074504 (2010). Then, the field of transformation thermophysics has been developed significantly, especially after 2012 when one research group located at Harvard University experimentally realized the thermal cloak; see S. Narayana and Y. Sato, Physical Review Letters 108, 214303 (2012). 
(2) Due to the pioneering contribution, J. P. Huang was interviewed by J. Cartwright, and Cartwright published a news in Science, entitled Heat Trickery Paves Way for Thermal Computers. 
(3) Also, the APL (2008) paper was commented by P. Ball in Nature Materials 11, 566 (2012) where he wrote The possibility of using a gradient in thermal properties to produce counterintuitive heat flows, including a flow from cold to hot (that is, apparent negative thermal conductivity) was first adduced by Fan and co-workers. 
(4) In Nov. 2013, Nature published a review: M. Maldovan, Sound and heat revolutions in phononics, Nature 503, 209-217 (2013). The review contains a single section, titled Thermal metamaterials and heat cloaking, which summarizes the relevant field pioneered by us via the APL (2008) paper. Also, at the end of the section, there are ... heat management using metamaterials brings exciting new techniques ... and ... offer unprecedented control of heat conduction. 
(5)In addition, to summarize the latest progress in the emerging field, both Nature and Science published a short essay: U. Leonhardt, Cloaking of heat, Nature, 498, 440-441 (2013); M. Wegener, Metamaterials beyond optics, Science, 342, 939-940 (2013). 

Enhanced nonlinear optical responses of materials: Composite effects
J. P. Huang and K. W. Yu 
Physics Reports volume 431, 87-172 (2006) 

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B. Monographs: back

Diffusionics: Diffusion Process Controlled by Diffusion Metamaterials

F. B. Yang and J. P. Huang 
(Springer, 2024)

Link for free download (The full book in PDF format)

Transformation Thermotics and Extended Theories: Inside and Outside Metamaterials
L. J. Xu and J. P. Huang 
(Springer, 2023) [Published and distributed in October 2022] 
Link for free download (The full book in PDF format)

Theoretical Thermotics: Transformation Thermotics and Extended Theories for Thermal Metamaterials
J. P. Huang 
(Springer, 2020) [Published and distributed in December 2019] 
Book cover in PDF format
Link to Springer

Experimental Econophysics: Properties and Mechanisms of Laboratory Markets
J. P. Huang 
(Springer, 2015) 
Homepage at Springer
Homepage at Amazon
Two referee reports

New Nonlinear Optical Materials: Theoretical Research
J. P. Huang and K. W. Yu 
(Nova science publishers, Inc., New York, 2007) 
Book Cover in JPG format
Click here for online publication details

热能调控技术：基于变换热学等热超构材料理论的设计、仿真与实验[Technologies for controlling thermal energy: Design, simulation and experiment based on thermal metamaterial theories including transformation thermotics (Monograph in Chinese)] 
黄吉平著[J. P. Huang] 
高等教育出版社，2021年10月（实际公开出版2022年）。[Higher Education Press (Beijing, China, 2021)] 

经济物理学——用物理学的方法或思想探讨一些经济或金融问题 [Econophysics: Using the methods and ideas of physics to discuss some economic or financial problems (Monograph in Chinese)] 
黄吉平编著 [J. P. Huang] 
高等教育出版社，2013年9月。[Higher Education Press (Beijing, China, 2013)] 
简介[Brief introduction in Chinese]

C. Patents: back

黄吉平，须留钧，戴高乐：基于变换热辐射和热传导理论设计的热聚集器装置，中国发明专利，专利号：ZL 2019 1 0946027.2 

发明专利证书(PDF文件)

黄吉平，杨帅，须留钧：呈现热学变色龙现象的各向异性单壳层结构及其实现方法，中国发明专利，专利号：ZL 2019 1 0724101.6 
发明专利证书(PDF文件)

黄吉平，须留钧：一种针对热传导和热辐射的热扩展装置，中国发明专利，专利号：ZL 2019 1 0751407.0 
发明专利证书(PDF文件)

黄吉平，须留钧：一种针对热辐射的热透明装置，中国发明专利，专利号：ZL 2019 1 0751403.2 
发明专利证书(PDF文件)

黄吉平，杨福宝，须留钧：一种基于多孔介质的热幻像调控方法，中国发明专利，专利号：ZL 2019 1 0651866.1 
发明专利证书(PDF文件)

黄吉平，须留钧，杨帅：一种基于热偶极子的热隐身方法，中国发明专利，专利号：ZL 2019 1 0946020.0 
发明专利证书(PDF文件)

黄吉平，王骏，杨福宝，须留钧：一种呈现红外热幻像且可见光下隐身的全热学超表面，中国发明专利，专利号：ZL 2020 1 0204485.1 
发明专利证书(PDF文件)

黄吉平，须留钧：一种针对热传导和热对流的类变色龙超壳层，中国发明专利，专利号：ZL 2019 1 0751408.5 
发明专利证书(PDF文件)

黄吉平，须留钧，杨帅：一种基于等效热耦极子的热幻像装置，中国发明专利，专利号：ZL 2019 1 0751411.7 
发明专利证书(PDF文件)

黄吉平，须留钧：一种针对热辐射的热隐身斗篷，中国发明专利，专利号：ZL 2019 1 0751405.1 
发明专利证书(PDF文件)

黄吉平，王骏，戴高乐：一种在热学扩散系统中实现多稳态的方法，中国发明专利，专利号：ZL 2019 1 0651858.7 
发明专利证书(PDF文件)

黄吉平，须留钧，戴高乐：基于变换热辐射和热传导理论设计的热旋转器装置，中国发明专利，专利号：ZL 2019 1 0947225.0

发明专利证书(PDF文件) 

黄吉平，须留钧，杨帅，戴高乐：一种同时适用于传导、对流和辐射的热旋转装置，中国发明专利，专利号：ZL 2019 1 1026555.2 

发明专利证书(PDF文件)

黄吉平，须留钧，杨帅，戴高乐：一种同时适用于传导、对流和辐射的热聚集装置，中国发明专利，专利号：ZL 2019 1 1026550.X 

发明专利证书(PDF文件)

黄吉平，须留钧，戴高乐：基于变换热辐射和热传导理论设计的热隐身斗篷，中国发明专利，专利号：ZL 2019 1 0946019.8 

发明专利证书(PDF文件)

黄吉平，须留钧，杨帅，戴高乐：一种同时适用于传导、对流和辐射的热隐身斗篷装置，中国发明专利，专利号：ZL 2019 1 1026554.8 

发明专利证书(PDF文件)

黄吉平，杨帅，须留钧：能够同时调控热传导、热对流和热辐射的热透明装置，中国发明专利，专利号：ZL 2019 1 1246640.X 

发明专利证书(PDF文件)

黄吉平，杨帅，须留钧：能够同时调控热传导、热对流和热辐射的热隐身装置，中国发明专利，专利号：ZL 2019 1 1256756.1 

发明专利证书(PDF文件)

黄吉平，雷敏，王骏：基于温度依赖变换热电学设计的热电隐身斗篷，中国发明专利，专利号：ZL 2021 1 0746346.6

黄吉平，雷敏，王骏：基于温度依赖变换热电学设计的热电聚集器，中国发明专利，专利号：ZL 2021 1 0746269.4

黄吉平，雷敏，王骏： 基于温度依赖坐标变换理论的热电旋转器及其设计方法，中国发明专利，专利号：ZL 2021 1 0745947.5

黄吉平，雷敏，王骏：基于温度依赖变换热电场理论的热电转换器及其设计方法，中国发明专利，专利号：ZL 2021 1 0744936.5

黄吉平, 雷敏, 王骏：基于相变材料的温度可调谐热电隐身斗篷及其设计方法，中国发明专利，专利号：ZL 2021 1 0745957.9

黄吉平，须留钧：基于梯度热导率的零能耗热点移动装置及其设计方法，中国发明专利，专利号：ZL 2021 1 0750833.X

D. Software copyright: back

黄吉平，金鹏，王骏：理论热学、热超构材料与热能调控软件[简称：3T软件]，中国计算机软件著作权，登记号：2020SR0123207 （开发完成日期：2019年10月20日；登记证书日期：2020年2月10日）

计算机软件著作权登记证书(PDF文件)