Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of Microwave Absorption in Films: Multilayered Films, Journal of Electronic Materials, 2024, accepted, doi: 10.1007/s11664-024-11370-9

1正确的理论不会因为主流学术权威的反对而成为错误理论

正确的理论永远是正确的。

正确的理论不会

因为主流学术权威反对，

因为整个学术界都不接受

而成为错误理论。

------------------

错误的理论永远是错误的。

错误的理论不会

因为有主流学术权威的支持，

因为有整个学术界的支持，

而成为正确理论。

In a certain sense, the academic community resembles a faction-ridden "martial arts world," where academic authorities wield power akin to "sect leaders," and ordinary scholars lack the strength to challenge their viewpoints. As the number of erroneous papers being published increases and more researchers follow the trend, everyone becomes a beneficiary, tacitly allowing these incorrect viewpoints to continue propagating.

— Science and Technology Daily, 2018-10-18, Page 01:

Today's Headlines, Deception Spanning Over a Decade: Academic "Masters" in the Field of Stem Cells Fall from Grace

学术圈某种意义上像是个派系林立的“江湖”，学术权威如同“教主”一样，普通学者没有力量反抗其观点。 随着发表的错误论文越来越多，跟风研究的越来越多，大家都成了既得利益者，就默许了这些错误的观点继续流传下去。

———— 科技日报，2018-10-18 第01版：今日要闻，骗了全世界十余年 干细胞“学术大牛”走下神坛

https://baijiahao.baidu.com/s?id=1614619477235832974&wfr=spider&for=pc

https://baijiahao.baidu.com/s?id=1614619476870888302

https://www.rmzxb.com.cn/c/2018-10-18/2193148.shtml

2 正确的理论永远不怕质疑

正确的理论永远不会因为被质疑而倒掉的。

倒掉的只能是错误的理论。

因此科学永远不怕质疑。

然而现在的同行评审期刊最怕的就是质疑，

现在的同行评审期刊生怕犯错误，

现在的同行评审期刊只敢发表共识的，

要错大家一起错，谁也不用承担责任。

文章发表后，不允许别人评论，还有什么资格叫同行评审期刊

正确的理论不是因为你的立场“正确”而正确，

正确的理论靠自己的论证而立足。

“some scientists wondered how a questionable line of research persisted for so long … experts were just too timid to take a stand.”

Harvard calls for retraction of dozens of studies by noted cardiologist, New York Times,

http://www.staradvertiser.com/2018/10/16/news/harvard-calls-for-retraction-of-dozens-of-studies-by-noted-cardiologist/. 16 Oct 2018

3 我们知道他们在玩学术游戏，他们也知道他们在玩学术游戏

当主流科学家知道自己一直为之奋斗的理论是错误的时候，

他们不敢让颠覆错误理论的正确理论传播，

他们不敢给颠覆错误理论的作者申辩的机会就急于给出退稿决定。

他们知道他们的评审意见不可能说服作者，

他们也知道作者还会投其它刊物，

编辑也知道评审意见漏洞百出，

但是总要有游戏规则退掉一些稿件，

他们不在意退掉的是优秀的稿件，留下发表的是垃圾，

他们只在意是否符合游戏规则。

我们知道他们在玩学术游戏，

他们也知道他们在玩学术游戏。

他们知道，只要符合游戏规则，就没有人能奈何得了他们。

因此他们热衷于为了自己的利益制定出面子上冠冕堂皇的游戏规则，

将不可告人的背面的东西合法化、堂而皇之化。

仅仅因为

他们是学术权威，

他们把握话语权，

尽管他们可能是在Nature和Science上发表过文章的学术草包。

https://blog.sciencenet.cn/video.php?mod=vinfo&pid=3695

上海交通大学杨枫教授-把学术界改造成美丽世界

随着学术界日益庞杂，学术游戏化的趋势愈加严重

很多主流科学家不承认90%的期刊文章是错的

为什么当代出版实践扭曲了科学

现代学术研究已经沦陷为做学术游戏

现代学术游戏规则之一：

同行评审期刊上发表的错误文章是不能评论的。

对于大多数主流权威犯的浅显而严重的错误视而不见是现代科学界的一个严重问题

文章发表后，不允许别人评论，还有什么资格叫同行评审期刊

https://blog.sciencenet.cn/video.php?mod=vinfo&pid=3501

Is_Science_Broken_The_Failure_of_Peer_Review_

北大教授乔晓春：高被引论文并不代表高质量论文

上海交通大学杨枫教授-把学术界改造成美丽世界

The rise and fall of peer review

Is Most Published Research Wrong

Top 10 Wrong Scientific Theories

Why_You_Should_Never_Say_It_s_Just_A_Theory__

Is_Science_Broken_The_Failure_of_Peer_Review_

The_Problem_With_Peer_Review_Eric_Weinstein_T

4 在主流学术权威主导的单极学术世界中，微弱的学术多样性依然重要

学术世界是主流科学家主导的单极世界，

但是在这个阴森可怕的单极世界里，微弱的学术多样性仍然是黎明的曙光。

正是因为这种微弱的学术多样性的少数科学家的存在，

才使得一些颠覆性成果得以发表。

无论错误理论的势力多么强大，

正确理论一旦发表，正确理论就胜利了，

即使全世界都不接受。

“Beyond these considerations, the importance of many of the more recent developments cannot be evaluated objectively at this time. The history of mathematics teaches us that many subjects which aroused tremendous enthusiasm and engaged the attention of the best mathematicians ultimately faded into oblivion ... Indeed one of the interesting questions that the history answers is what survives in mathematics. History makes its own and sounder evaluations.”

--Morris Kline, Mathematical Thought from Ancient to Modern Times, Oxford University Press, 1972, ISBN 0-19-506136-5

引申：

历史是最公正的。历史反复证明，那些在当世喧嚣尘上的东西往往是主流学者刻意炒作的糟粕，而那些被当世打压的经常是真金白银。

Expansion:

History serves as the ultimate arbiter. It consistently reveals that what is often overemphasized by the prominent scholars of an era is often merely the intentional promotion of mediocrity, while that which is suppressed by the prevailing contemporary scholars often reveals itself to be authentic and of true value.

然而

在强大的主流科学家主导的单极世界，

颠覆性创新不都那么幸运，很多被结结实实地扼杀在摇篮之中。

同行评审使专业阶层将信息把关过程变成了保护他们自身地位的保障

同行评审就是你的同行有能力阻止世界了解你的工作

面对利益和真理，主流科学家更珍视前者

大多数主流科学家的同行评审学术不端是比“图片误用”更恶劣的学术不端

现代科学界真正的同行评审几乎已经死亡

5 不要高估在教育滑坡时期培养的主流科学家的理论水平

现代主流科学家热衷于依仗高精尖仪器的表面的实验研究，

他们看不起理论研究。

https://blog.sciencenet.cn/video.php?mod=vinfo&pid=3502

Why_You_Should_Never_Say_It_s_Just_A_Theory__

牛顿、爱恩斯坦持唯心主义世界观，现代主流科学家持唯物主义世界观

实践反复证明：期刊同行评审很难发现文章中的低级错误，但是能高效阻止新思想的传播

伟大的物理理论是比诺贝尔奖奖励的东西更伟大的人类成就

科学研究就是建立科学理论，而不是为了做实验而做实验

按现代的教育标准，牛顿是不称职的教师，必须下岗

当代学界

真正推动科学进步的是理论研究，而不是实验研究

有能力取得正确的理论认知，是人和动物的本质区别

科学界能搞出大量实验数据支持错误理论

化学不是实验科学、物理不是实验科学、正确的理论才是检验科学的唯一标准

做学问更是为了继承人类最优秀的成果，其次才是创新

坚持基础研究，做有科学意义的工作

“只有实验验证了的理论才能被认可”的意思是不认可理论研究

现代科学研究欠缺的是对理论研究的重视

是理论使这个世界变得简单了、更容易把握了

推翻现行微波吸收理论的工作是系列工作，有一系列工作发表。

反射损失RL和界面的反射系数R_M是微波吸收领域的基本常识

只要真正理解了这两个概念，

推翻现行微波吸收理论的任何一篇文章都能看懂。

但是

不是所有微波吸收材料的研究者都真正理解了反射损失RL和界面的反射系数R_M的概念，

相当多数是只是知道这两个概念，但是并不是真的懂。

对于这样的研究者，需要按从早期到现在的顺序逐篇阅读我们的文章才能读懂，

因为我们的文章对这些相关公式都有详尽的推导，

对于从数学建立的概念，必须通过数学理解，

所以只有详尽了解了数学公式的推导过程之后才能理解这些从数学建立的概念。

尽管微波吸收的波动力学理论很简单，但是它毕竟是一门完整的学科体系，

它毕竟有一套与现行微波吸收理论完全不同的概念体系。

热力学、电磁学、量子力学都是基础的本科课程，并不难，

但是从零学起仍然要花一点功夫，

微波吸收的波动力学理论也一样。

推翻现行微波吸收理论的文章汇总：

1.  Yue      Liu, Ying Liu, Michael G. B. Drew, Review: Review of Wave Mechanics Theory for      Microwave Absorption by Film, Qeios, Preprint,      2024-07-04, Supplementary      data

2.        Yue Liu, Ying Liu, Michael G. B. Drew,  Review:  Recognizing Problems in      Publications Concerned with Microwave Absorption Film and Providing      Corrections: A Focused Review, Qeios, preprin,       2024-07-01, Supplementary      data,   【Yue      Liu, Ying Liu, Drew MGB,  [Commentary]      Comments on: “A perspective on impedance matching and resonance absorption      mechanism for electromagnetic wave absorbing” by Hou et al. [Carbon 222      (2024) 118935], Qeios, 2024, Supplementary Yue      Liu, Ying Liu, Drew MGB, Corrections      of common errors in current theories of microwave absorption caused by      confusing film and material, Qeios, 2024/02/10,      preprint, https://doi.org/10.32388/QQ1MFF;  Corrections of Common Errors      Associated with the Confusion between Film and Material in Current      Theories of Microwave Absorption. Available at SSRN:      https://ssrn.com/abstract=4797207 or      http://dx.doi.org/10.2139/ssrn.4797207 】

3.  Yue Liu，Ying Liu，Michael G. B Drew. Review：Wave mechanics of      microwave absorption in films: a short review, Optics and      Laser Technology, 2024, 178,  111211  （The wave mechanics for      microwave absorption film-Part 1: A short review, Preprint, Research Square, 15      Aug, 2023, scite）

4. Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of      Microwave Absorption in Films - Distinguishing Film from Material，Journal of Magnetism      and Magnetic Materials，2024， 593, 171850 ;          ( The wave mechanics for microwave absorption film – Part 2:      The difference between film and material，Preprint, Research      Square, 15 Aug, 2023, Supplementarial file)

5. Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of      Microwave Absorption in Films: Multilayered Films, Journal of      Electronic Materials, 2024, doi:      10.1007/s11664-024-11370-9; The wave mechanics for      microwave absorption film-Part 3: Film with multilayers,      Preprint, Research      Square, 13 Aug, 2023,Supplementarial file, scite_

6.   Yue Liu, Michael G. B      Drew,Ying Liu, A      Theoretical Exploration of Impedance Matching Coefficients for Interfaces      and Films, Applied Physics A, 2024, 130, 212

7. Ying      Liu, Michael. G.B. Drew, Yue Liu, Chapter 4: Fundamental      Theory of Microwave Absorption for Films of Porous Nanocomposites: Role of      Interfaces in Composite-Fillers, in Porous Nanocomposites for Electromagnetic Interference      Shielding, Edited by: Sabu      Thomas, Claudio Paoloni, Avinash R. Pai, 2024, Elsevier,      [978-0-323-90035-5_B978-0-323-90035-5.00013-1], pp. 59 -      90, https://doi.org/10.1016/B978-0-323-90035-5.00013-1

8. 刘颖， 刘跃，膜的微波吸收机理， 分子科学学报， 2023，v.39; No.194(06) 521-527

9. Ying      Liu, Kaiqi Yang, Yue Liu, Michael G. B Drew, The Shackles of      Peer Review: Unveiling the Flaws in the Ivory Tower, arXiv,      https://doi.org/10.48550/arXiv.2310.05966

10. Ying      Liu, Michael G. B. Drew, Yue Liu, A physics      investigation on impedance matching theory in microwave absorption film—Part      1: Theory, Journal of Applied Physics, 2023,      134(4), 045303, DOI: 10.1063/5.0153608

11. Ying      Liu, Michael G. B. Drew, Yue Liu, A physics      investigation on impedance matching theory in microwave absorption      film—Part 2: Problem Analyses, Journal of Applied Physics, 2023,      134(4), 045304, DOI: 10.1063/5.0153612

12. Ying      Liu; Xiangbin Yin; M. G. B. Drew; Yue Liu, Microwave      absorption of film explained accurately by wave cancellation theory, Physica      B: Condensed Matter, 2023, 666, 415108. (Microwave absorption of film explained accurately by wave      cancellation theory, 2023-02-23 | Preprint, Research      Square, DOI: 10.21203/rs.3.rs-2616469/v2，Supplementary information: Available comments and      our responses.)

13. Ying      Liu, Yi Ding, Yue Liu, Michael G. B. Drew. Unexpected      Results in Microwave Absorption – Part 1: Different absorption mechanisms      for metal-backed film and for material, Surfaces and      Interfaces, 2023, 40, 103022

14. Ying      Liu, Yi Ding, Yue Liu, Michael G. B. Drew. Unexpected      Results in Microwave Absorption – Part 2:. Angular effects and the wave      cancellation theory, Surfaces and Interfaces, 2023,      40, 103024

15. Ying      Liu, Xiangbin Yin, Michael G. B. Drew, Yue Liu, Reflection      Loss is a Parameter for Film, not Material, Non-Metallic      Material Science, 2023, 5(1): 38-48.

16. 刘颖，丁一，陈庆阳，刘跃，NiFe2-xMxO4 (M: Ce/Sm/Gd)的制备及其膜的微波吸收性能，沈阳师范大学学报 ( 自然科学版 ), 2023,      41(2)，98      - 103

17. Ying      Liu, Yue Liu, Drew M.G.B, A      re-evaluation of the mechanism of microwave absorption in film – Part 1:      Energy conservation, Mater. Chem. Phys. 2022, 290,126576.

18. Ying      Liu, Yue Liu, Drew M.G.B, A      re-evaluation of the mechanism of microwave absorption in film – Part 2:      The Real mechanism, Mater. Chem. Phys,. 2022,      291, 126601.

19. Ying      Liu, Yue Liu, Drew M.G.B, A      re-evaluation of the mechanism of microwave absorption in film  Part      3: Inverse relationship, Mater. Chem. Phys. 2022,      290, 126521.

20. Liu Y, Liu Y, Drew MGB. A      theoretical investigation of the quarter-wavelength model — part 2:      verification and extension. Physica Scripta 2022 ,      97(1) : 015806.

21. Liu Y, Liu Y, Drew MGB. A      theoretical investigation on the quarter-wavelength model — part 1:      analysis. Physica Scripta 2021 , 96(12) : 125003.      ( The problems in the quarter-wavelength model and impedance      matching theory in analysising microwave absorption material,      2021-08-30 | Preprint, Research Square, DOI: 10.21203/rs.3.rs-206241/v1)

22. Liu Y, Drew MGB, Li H, Liu Y. A theoretical analysis      of the relationships shown from the general experimental results of      scattering parameters s11 and s21 – exemplified by the film of      BaFe12-iCeiO19/polypyrene with i = 0.2, 0.4, 0.6. Journal of      Microwave Power and Electromagnetic Energy 2021 , 55(3) : 197-218.

23. Liu Y, Drew MGB, Li H, Liu Y. An      experimental and theoretical investigation into methods concerned with      “reflection loss” for microwave absorbing materials. Materials      Chemistry and Physics 2020, 243 : 122624.

24. Liu Y, Lin Y, Zhao K, Drew MGB, Liu Y. Microwave      absorption properties of Ag/NiFe2-xCexO4 characterized by an alternative      procedure rather than the main stream method using “reflection loss”. Materials      Chemistry and Physics 2020, 243 : 122615

25. 赵坤 , 林雨冉 , 刘颖 . 微波吸收复合材料      Ag/NiFe2-xCexO4 的制备与表征. 功能材料 2020 ,      51(03) : 03171 - 03175.

26. Liu Y, Drew MGB, Liu Y. Characterization      microwave absorption from active carbon/BaSmxFe12−xO19/polypyrrole      composites analyzed with a more rigorous method. Journal of      Materials Science: Materials in Electronics 2019, 30(2) : 1936-1956.

27. Yang      K, Liu Y, Drew MGB, Liu Y. Preparation      and characterization of BaSmxFe12 − xO19/polypyrrole composites. Journal      of Materials Science: Materials in Electronics 2018 ,      29(15) : 13148-13160, Electronic supplementary material.

28. Liu      Y, Zhao K, Drew MGB, Liu Y. A theoretical and practical clarification on the      calculation of reflection loss for microwave absorbing materials. AIP      Advances 2018 , 8(1) : 015223.

29. Liu      Y, Yu H, Drew MGB, Liu Y. A      systemized parameter set applicable to microwave absorption for ferrite      based materials. Journal of Materials Science: Materials in      Electronics 2018, 29(2) : 1562-1575,Supplementary material.

30. Liu      Y, Tai R, Drew MGB, Liu Y. Several      Theoretical Perspectives of Ferrite-Based Materials—Part 1: Transmission      Line Theory and Microwave Absorption. Journal of      Superconductivity and Novel Magnetism 2017 , 30(9) : 2489-2504.

6 没有获得共识的研究很难获得资金资助

因为没有获得共识，从来没有获得国家自然基金资助

科研结果汇总：

1. Yue      Liu, Ying Liu, Drew MGB. Review: The      handedness structure of octahedral metal complexes with chelating ligands. Coordination      Chemistry Reviews 2014 , 260 : 37-64.

2. Ying      Liu, Yue Liu,      Drew MGB. Review:   Comparison      of calculations for interplanar distances in a crystal lattice. Crystallography      Reviews 2017 , 23(4) : 252-301.

3. Ying Liu, Yue Liu,      Drew MGB. Review:      Clarifications of concepts concerning interplanar spacing in crystals with      reference to recent publications. SN Applied Sciences      2020 , 2(4) : 755.

4.  Yue      Liu, Ying Liu, Michael G. B. Drew, Review: Review of Wave Mechanics Theory for      Microwave Absorption by Film, Qeios, Preprint,      2024-07-04, Supplementary      data

5.        Yue Liu, Ying Liu, Michael G. B. Drew,  Review:  Recognizing Problems in      Publications Concerned with Microwave Absorption Film and Providing      Corrections: A Focused Review, Qeios, preprin,       2024-07-01, Supplementary      data,   Yue Liu, Ying Liu, Drew MGB,  [Commentary] Comments on: “A      perspective on impedance matching and resonance absorption mechanism for      electromagnetic wave absorbing” by Hou et al. [Carbon 222 (2024) 118935], Qeios, 2024, Supplementary Yue      Liu, Ying Liu, Drew MGB, Corrections      of common errors in current theories of microwave absorption caused by      confusing film and material, Qeios, 2024/02/10,      preprint, https://doi.org/10.32388/QQ1MFF;  Corrections of Common Errors      Associated with the Confusion between Film and Material in Current      Theories of Microwave Absorption. Available at SSRN:      https://ssrn.com/abstract=4797207 or      http://dx.doi.org/10.2139/ssrn.4797207 

6.  Yue Liu，Ying Liu，Michael G. B Drew. Review：Wave mechanics of      microwave absorption in films: a short review, Optics and      Laser Technology, 2024, 178,  111211  （The wave mechanics for      microwave absorption film-Part 1: A short review, Preprint, Research Square, 15      Aug, 2023, scite）

7. Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of      Microwave Absorption in Films - Distinguishing Film from Material，Journal of Magnetism      and Magnetic Materials，2024， 593, 171850 ;          ( The wave mechanics for microwave absorption film – Part 2:      The difference between film and material，Preprint, Research      Square, 15 Aug, 2023, Supplementarial file)

8. Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of      Microwave Absorption in Films: Multilayered Films, Journal of      Electronic Materials, 2024, doi:      10.1007/s11664-024-11370-9; The wave mechanics for      microwave absorption film-Part 3: Film with multilayers,      Preprint, Research      Square, 13 Aug, 2023,Supplementarial file, scite_

9.   Yue Liu, Michael G. B      Drew,Ying Liu, A      Theoretical Exploration of Impedance Matching Coefficients for Interfaces      and Films, Applied Physics A, 2024, 130, 212

10. Ying      Liu, Michael. G.B. Drew, Yue Liu, Chapter 4: Fundamental      Theory of Microwave Absorption for Films of Porous Nanocomposites: Role of      Interfaces in Composite-Fillers, in Porous Nanocomposites for Electromagnetic Interference      Shielding, Edited by: Sabu      Thomas, Claudio Paoloni, Avinash R. Pai, 2024, Elsevier,      [978-0-323-90035-5_B978-0-323-90035-5.00013-1], pp. 59 -      90, https://doi.org/10.1016/B978-0-323-90035-5.00013-1

11. 刘颖， 刘跃，膜的微波吸收机理， 分子科学学报， 2023，v.39; No.194(06) 521-527

12. Ying      Liu, Kaiqi Yang, Yue Liu, Michael G. B Drew, The Shackles of      Peer Review: Unveiling the Flaws in the Ivory Tower, arXiv,      https://doi.org/10.48550/arXiv.2310.05966

13. Ying      Liu, Review      of: The Compton Wavelength Is the True Matter Wavelength, Linked to the      Photon Wavelength, While the de Broglie Wavelength Is Simply a      Mathematical Derivative, Qeios, 2023,      https://doi.org/10.32388/YLQG7T

14. Ying      Liu, Review      of: Some Considerations on the Speed of Light.      https://doi.org/10.32388/34DN8G

15. Ying      Liu, Michael G. B. Drew, Yue Liu, A physics      investigation on impedance matching theory in microwave absorption film—Part      1: Theory, Journal of Applied Physics, 2023,      134(4), 045303, DOI: 10.1063/5.0153608

16. Ying      Liu, Michael G. B. Drew, Yue Liu, A physics      investigation on impedance matching theory in microwave absorption      film—Part 2: Problem Analyses, Journal of Applied Physics, 2023,      134(4), 045304, DOI: 10.1063/5.0153612

17. Ying      Liu; Xiangbin Yin; M. G. B. Drew; Yue Liu, Microwave      absorption of film explained accurately by wave cancellation theory, Physica      B: Condensed Matter, 2023, 666, 415108. (Microwave absorption of film explained accurately by wave      cancellation theory, 2023-02-23 | Preprint, Research      Square, DOI: 10.21203/rs.3.rs-2616469/v2，Supplementary information: Available comments and      our responses.)

18. Ying      Liu, Yi Ding, Yue Liu, Michael G. B. Drew. Unexpected      Results in Microwave Absorption – Part 1: Different absorption mechanisms      for metal-backed film and for material, Surfaces and      Interfaces, 2023, 40, 103022

19. Ying      Liu, Yi Ding, Yue Liu, Michael G. B. Drew. Unexpected      Results in Microwave Absorption – Part 2:. Angular effects and the wave      cancellation theory, Surfaces and Interfaces, 2023,      40, 103024

20. Ying      Liu, Xiangbin Yin, Michael G. B. Drew, Yue Liu, Reflection      Loss is a Parameter for Film, not Material, Non-Metallic      Material Science, 2023, 5(1): 38-48.

21. 刘颖，丁一，陈庆阳，刘跃，NiFe2-xMxO4 (M: Ce/Sm/Gd)的制备及其膜的微波吸收性能，沈阳师范大学学报 ( 自然科学版 ), 2023,      41(2)，98      - 103

22. 尹相镔, 郝艺彤, 王瑞丹, 刘颖, 戚克振. 铈掺杂ZnFe2O4      多层空心微球的制备及其光催化活性. 硅酸盐学报, 2023, 51(1),      58 - 63.

23. Ying      Liu, Yue Liu, Drew M.G.B, A      re-evaluation of the mechanism of microwave absorption in film – Part 1:      Energy conservation, Mater. Chem. Phys. 2022, 290,126576.

24. Ying      Liu, Yue Liu, Drew M.G.B, A      re-evaluation of the mechanism of microwave absorption in film – Part 2:      The Real mechanism, Mater. Chem. Phys,. 2022,      291, 126601.

25. Ying      Liu, Yue Liu, Drew M.G.B, A      re-evaluation of the mechanism of microwave absorption in film  Part      3: Inverse relationship, Mater. Chem. Phys. 2022,      290, 126521.

26. Liu      Ying, Liu Yue, Drew Michael G. B. Natural      mathematical derivation of the Gibbs-Duhem Equation related to ΔG and      ∂G/∂ξ, International Journal of Thermophysics, 2022,      43, 73 doi:      10.1007/s10765-022-02998-y. ( Natural      Mathematical Derivation of the Gibbs-Duhem Equation, 2022-03-10      | Preprint, Research Square, DOI: 10.21203/rs.3.rs-1061987/v1)

27. Song      J, Zhao K, Yin X, Liu Y, Khan I and Liu S-Y. Photocatalytic      degradation of tetracycline hydrochloride with g-C3N4/Ag/AgBr composites. Front.      Chem. 2022, 10:1069816. doi: 10.3389/fchem.2022.1069816

28. 刘颖, 郝艺彤, 尹相镔, 崔楠, 戚克振. Ag@ZnFe2-xCeO4复合材料的制备及其光催化活性, 沈阳师范大学学报 ( 自然科学版 ), 2022,      40(1), 1 - 5.

29. Liu Y, Liu Y, Drew MGB. A      theoretical investigation of the quarter-wavelength model — part 2:      verification and extension. Physica Scripta 2022 ,      97(1) : 015806.

30. Liu Y, Liu Y, Drew MGB. A      theoretical investigation on the quarter-wavelength model — part 1:      analysis. Physica Scripta 2021 , 96(12) : 125003.      ( The problems in the quarter-wavelength model and impedance      matching theory in analysising microwave absorption material,      2021-08-30 | Preprint, Research Square, DOI: 10.21203/rs.3.rs-206241/v1)

31. Liu Y, Drew MGB, Li H, Liu Y. A theoretical analysis      of the relationships shown from the general experimental results of      scattering parameters s11 and s21 – exemplified by the film of      BaFe12-iCeiO19/polypyrene with i = 0.2, 0.4, 0.6. Journal of      Microwave Power and Electromagnetic Energy 2021 , 55(3) : 197-218.

32. 刘颖, 林雨冉, 覃佩 , 申婉婷, 赵坤. 二氧化铈      - 银 _      碘化银光催化剂的制备及水中有机污染物去除性能 . 沈阳师范大学学报 ( 自然科学版 ) 2021 ,      39(4) : 290 - 296.

33. Liu Y, Liu Y, Drew MGB. Relationship      between heat capacities derived by different but connected approaches. American      Journal of Physics 2020 , 88(1) : 51-59.

34. Liu Y, Drew MGB, Li H, Liu Y. An      experimental and theoretical investigation into methods concerned with      “reflection loss” for microwave absorbing materials. Materials      Chemistry and Physics 2020 , 243 : 122624.

35. Liu Y, Lin Y, Zhao K, Drew MGB, Liu Y. Microwave      absorption properties of Ag/NiFe2-xCexO4 characterized by an alternative      procedure rather than the main stream method using “reflection loss”. Materials      Chemistry and Physics 2020 , 243 : 122615

36. Zhao      K, Khan I, Qi K, Liu Y, Khataee A. Ionic      liquid assisted preparation of phosphorus-doped g-C3N4 photocatalyst for      decomposition of emerging water pollutants. Materials      Chemistry and Physics 2020 , 253 : 123322.

37. Zhang      S, Khan I, Qin X, Qi K, Liu Y,      Bai S. Construction of 1D Ag-AgBr/AlOOH Plasmonic Photocatalyst      for Degradation of Tetracycline Hydrochloride. Front Chem      2020 , 8 : 117.

38. 赵坤 , 林雨冉 , 刘颖 . 微波吸收复合材料      Ag/NiFe2-xCexO4 的制备与表征. 功能材料 2020 ,      51(03) : 03171 - 03175.

39. Liu Y, Drew MGB, Liu Y. Characterization      microwave absorption from active carbon/BaSmxFe12−xO19/polypyrrole      composites analyzed with a more rigorous method. Journal of      Materials Science: Materials in Electronics 2019, 30(2) : 1936-1956.

40. Yang      K, Liu Y, Drew MGB, Liu Y. Preparation      and characterization of BaSmxFe12 − xO19/polypyrrole composites. Journal      of Materials Science: Materials in Electronics 2018 ,      29(15) : 13148-13160, Electronic supplementary material.

41. Liu      Y, Zhao K, Drew MGB, Liu Y. A theoretical and practical clarification on the      calculation of reflection loss for microwave absorbing materials. AIP      Advances 2018 , 8(1) : 015223.

42. Liu Y, Drew MGB, Liu Y. Similarity      Between Chemistry and Mathematics in Reasoning. The Chemical      Educator 2018 , 23 : 231-236.

43. Liu      Y, Yu H, Drew MGB, Liu Y. A      systemized parameter set applicable to microwave absorption for ferrite      based materials. Journal of Materials Science: Materials in      Electronics 2018, 29(2) : 1562-1575,Supplementary material.

44. Liu      Y, Tai R, Drew MGB, Liu Y. Several      Theoretical Perspectives of Ferrite-Based Materials—Part 1: Transmission      Line Theory and Microwave Absorption. Journal of      Superconductivity and Novel Magnetism 2017 , 30(9) : 2489-2504.

45. Liu      Y, Jin J, B. Drew MG, Liu Y. Several      Theoretical Perspectives of Ferrite-Based Materials—Part 2: Close Packing      Model for Crystal Structure. Journal of Superconductivity and      Novel Magnetism 2017 , 30(10) : 2777-2789.

46. Liu Y, Liu Y, Yin H, Drew MGB. Several      Theoretical Perspectives of Ferrite-Based Materials-Part 3: Crystal      Structure and Synthesis. Journal of Superconductivity and      Novel Magnetism 2017 , 30(11) : 3019-3025.

47. Liu      Y, Tai R, Drew MGB, Liu Y. Preparation and characterizations of active carbon/barium      ferrite/polypyrrole composites. Journal of Materials Science:      Materials in Electronics 2017 , 28(9) : 6448-6455.

48. Jin      J, Liu Y, Drew MGB, Liu Y. Preparation and characterizations of Ba1 −      xPbxFe12O19/polypyrrole composites. Journal of Materials      Science: Materials in Electronics 2017 , 28(15) : 11325-11331.

49. Liu Y, Liu Y, Drew MGB. A      mathematical approach to chemical equilibrium theory for gaseous      systems—I: theory. Journal of Mathematical Chemistry      2012 , 51(2) : 715-740.

50. Liu Y, Liu Y, Drew MGB. A      mathematical approach to chemical equilibrium theory for gaseous      systems—II: extensions and applications. Journal of      Mathematical Chemistry 2012 , 51(2) : 741-762.

51. Liu Y, Drew MGB, Liu Y. A mathematical approach to chemical equilibrium theory for      gaseous systems—III: Qp,Qc,and Qx. Journal of Mathematical      Chemistry 2014 , 52(5) : 1191-1200.

52. Liu Y, Liu Y, Drew MGB. A mathematical approach      to chemical equilibrium theory for gaseous systems IV: a mathematical      clarification of Le Chatelier's principle. Journal of      Mathematical Chemistry 2015 , 53(8) : 1835-1870.

53. Liu Y, Liu Y, Drew MGB. Correlation      between Fourier series expansion and Hückel orbital theory. Journal      of Mathematical Chemistry 2012 , 51(2) : 503-531.

54. Liu Y, Liu B, Liu Y, Drew MGB. Correlations      between two sets of angular relation equations. Journal of      Mathematical Chemistry 2011 , 49(9) : 2089-2108.

55. Liu      Y, Li X, Drew MGB, Liu Y. Increasing      microwave absorption efficiency in ferrite based materials by doping with      lead and forming composites. Materials Chemistry and Physics      2015 , 162 : 677-685.

56. 刘颖 , 台睿 , 刘跃 . 晶体场与磁学性质 . 化学教育 (Chinese Journal of      Chemical Education), 2015 , 36(6) : 1-10.

57. Liu Y, Drew MGB, Liu Y, Liu Y, Cao      FL. A comparative study of Fe3O4/polyaniline composites with      octahedral and microspherical inorganic kernels. Journal of      Materials Science 2014 , 49(10) : 3694-3704.

58. 刘跃. 坚持基础研究，做有科学意义的工作 . 化学通讯 2014 (1) : 14.

59. 刘跃, 李晓杰 , 刘颖 . 也谈平衡移动 . 化学教与学 2013 ,      7 : 70-72.

60. 刘颖, 刘跃. 立方      ZnS 晶胞中      Zn-S 键长的几种解法及其启示. 化学教学 2013 (1) : 70      - 72.

61. Liu Y, Liu Y, Drew MGB. The      use of Three Simple Related Procedures in Determining the Russell-Saunders      Terms of Equivalent Electrons. The Chemical Educator      2012 , 17 : 118-124.

62. Liu Y, Drew MGB, Liu Y, Liu L. Anodic      Polarization Curves Revisited. Journal of Chemical Education      2012 , 90(1) : 76-81

63. Liu Y, Liu B, Liu Y, Drew MGB. Connections      between Concepts Revealed by the Electronic Structure of Carbon Monoxide. Journal      of Chemical Education 2011 , 89(3) : 355-359.

64. Liu Y, Liu Y, Liu B. A New Method for Obtaining Russell −      Saunders Terms. Journal of Chemical Education 2010 ,      88(3) : 295-298.

65. Liu Y, Liu Y, Drew MGB. Where Should      the Nuclei Be Located? Journal of Chemical Education      2005 , 82(2) : 320 - 322.

66. Liu Y, Drew MGB, Liu Y. Optimizing      the methods of synthesis for barium hexagonal ferrite—An experimental and      theoretical study. Materials Chemistry and Physics 2012 ,      134(1) : 266-272.

67. Wang      J, Wu C, Xia T, Liu Y, Feng J, Zhang M. Preparation,      characterizations and magnetic properties of doped barium hexaferrites      BaFe12-2x Mn x Sn x O19 (x = 0.0–1.0). Journal of Wuhan      University of Technology-Mater Sci Ed 2012 , 27(3) : 507-511.

68. 王丽丽, 李阳, 刘颖, 刘跃, 磷掺杂锐钛矿二氧化钛能带结构的从头计算研究, 分子科学学报 2012, 28(3), 248      - 251, DOI: 10.13563/j.cnki.jmolsci.2012.03.013

69. Liu Y, Zhang HB, Duan JD, Liu Y, Gao      Y, Wang LL , et al. Magnetic      Properties of Mn/Co/Sn Substituted Barium Hexaferrites Synthesized by an      Improved Co-Precipitation Method. Advanced Materials Research      2011 , 239-242 : 3052-3055.

70. Liu Y, Yin HS, Liu Y, Sun K, Li Y,      Wang LL , et al. Improved      Synthesis Methods for Barium Hexaferrite. Advanced Materials      Research 2011 , 239-242 : 3039-3042.

71. Liu Y, Liu Y, Drew MGB. Aspects      of quantum mechanics clarified by lateral thinking. The      Chemical Educator 2011 , 16 : 272-274.

72. Liu Y, Liu B, Liu Y, Drew MGB. Observations      on calculations of configuration interaction and basis set superposition      error. The Chemical Educator, 2011: 202-205.

73. Liu Y, Li Y, Liu Y, Yin HS, Wang LL,      Sun K , et al. Structure Information of Barium Hexaferrite and Strategies      for its Syntheses. Applied Mechanics and Materials 2011 ,      69 : 6-11.

74. Liu Y, Drew MGB, Liu Y. Preparation      and magnetic properties of barium ferrites substituted with manganese,      cobalt, and tin. Journal of Magnetism and Magnetic Materials      2011 , 323(7) : 945-953.

75. 刘颖, 段纪东, 张洪波, 刘跃. 烯烃催化聚合反应中的区位选择性和 Mulliken      位置电荷. 高分子通报 (CHINESE POLYMER      BULLETIN) 2011 (5) : 93-97.

76. Liu      Y, Drew MGB, Wang J, Zhang M, Liu Y. Efficiency      and purity control in the preparation of pure and/or aluminum-doped barium      ferrites by hydrothermal methods using ferrous ions as reactants. Journal      of Magnetism and Magnetic Materials 2010 , 322(3) : 366-374.

77. Liu      Y, Drew MGB, Liu Y, Wang J, Zhang M. Preparation      and magnetic properties of La–Mn and La–Co doped barium hexaferrites      prepared via an improved co-precipitation/molten salt method. Journal      of Magnetism and Magnetic Materials 2010 , 322(21) : 3342-3345.

78. Liu      Y, Drew MGB, Liu Y, Wang J, Zhang M. Preparation,      characterization and magnetic properties of the doped barium hexaferrites      BaFe12 − 2xCox/2Znx/2SnxO19, x=0.0 – 2.0. Journal of Magnetism      and Magnetic Materials 2010 , 322(7) : 814-818.

79. Liu Y, Liu Y, Drew MGB. Correlation      between regioselectivity and site charge in propene polymerisation      catalysed by metallocene. Structural Chemistry 2009 ,      21(1) : 21-28.

80. Wang J, Liu Y, Zhang M, Qiao Y, Xia T. Comparison      of the Sol-gel Method with the Coprecipitation Technique for Preparation      of Hexagonal Barium Ferrite. Chemical Research in Chinese      Universities 2008 , 24(5) : 525-528.

81. Liu Y, Drew MGB, Liu Y. Intermediate      ion stability and regioselectivity in propene polymerization using neutral      salicyladiminato nickel(II) and palladium(II) complexes as catalysts. Journal      of Molecular Structure: THEOCHEM 2007 , 809(1-3) : 29-37.

82. Liu Y, Drew MGB, Liu Y. The      crucial importance of agostic interactions in intermediates formed in      propylene polymerization using neutral salicyladiminato palladium(II) and      nickel complexes as catalysts. Journal of Molecular Structure:      THEOCHEM 2007 , 821(1-3) : 30-41.

83. 宁兆娟, 陈野, 刘颖, 张密林, 亓淑艳, 舒畅. 反滴加共沉淀法制备      Gd:YIG 及磁性研究. 稀土 2007 ,      28(02) : 43-46.

84. 刘颖, 王敬平, 胡敏, 张密林, 夏天. 溶胶      / 凝胶法制备单磁畴      M 型六角钡铁氧体及磁性. 应用化学 2007 ,      24 : 1182-1186.

85. 刘颖, 宁兆娟, 谭颖, 王敬平, 张密林. 共沉淀法合成      Y3Fe5O12 及其磁性. 应用化学 2007 ,      24 : 468-470.

86. WANG      J-P, LI，      Ying, HU，      Min, ZHANG ，      Mi-Lin. Effects of different molten-salt on the synthesis of      hexagonal barium ferrite. Chinese Journal of Aeronautics      2006 , 16 : S206-S209.

87. 刘颖, 王敬平, 谭颖, 张密林, 孟健. 共沉淀      / 熔盐法合成六角片状纳米      BaFe12O19. 功能材料      2006 , 37 : 974 - 675.

88. 刘颖, 刘波, 张密林, 刘跃. 酒石酸和氰基二苯基二氢吡唑的高效液相色谱手性分离. 分析科学学报 2006 ,      22 : 435-437.

89. 刘佳雯, 刘颖, 刘跃. 中性水杨醛亚胺镍催化烯烃聚合反应链引发机理的密度泛函研究. 分子催化 2006 ,      20 : 51-56.

90. 蒋荣立, 刘颖, 周长春, 郑宏伟, 郑菊花, 高庆宇. 无机及分析化学实验. 中国矿业大学出版社 : 徐州 , 2006 .

91. Yang Z-D, Liu Y, Liu Y. Regioselectivity Study on Propylene Polymerization      Catalyzed by Neutral Salicyladiminato Pd(II) Model Complex with DFT Method. 结构化学 (Chinese J Struct      Chem) 2005 , 24(06) : 723-728.

92. Liu      Y, Zhang M, Drew MGB, Yang Z-D, Liu Y. A      DFT study of propylene polymerization using neutral salicyladiminato      nickel(II) and palladium(II) as catalysts. Journal of      Molecular Structure: THEOCHEM 2005 , 726(1-3) : 277-283.

93. 王骐, 刘颖, 张密林, 刘跃. 二芳基马来酸酐吸收光谱的计算研究. 光谱学与光谱分析 2005 ,      25 : 685-687.

94. Hölldobler      B, Oldham NJ, Liebig J, Liu Y, David Morgan E. Dufour      gland secretion in the harvester ant genus Pogonomyrmex. Chemoecology      2004 , 14(2) : 101-106.

95. 杨照地, 刘跃, 刘颖. 水杨亚胺基镍      / 钯配合物催化丙烯聚合电中性机理      --agostic 相互作用的研究. 哈尔滨师范大学自然科学学报 2004 ,      20(02) : 83 - 86.

96. 孙丽曼, 刘跃. 硝酮与烯烃的 1,3- 偶极环加成反应区位和立体选择性的量子化学计算研究. 哈尔滨师范大学自然科学学报 2004 ,      20 : 73-77.

97. 刘颖, 刘跃, 左霞, 吴谊群. 磺化金属萘酞菁聚集倾向的光谱研究. 光谱学与光谱分析 2004 ,      24 : 652-665.

98. 刘佳雯, 刘颖, 杨小震, 刘跃. 新型 Ni 催化剂催化乙烯聚合的中性机理. 高分子学报 2004 (3) : 333-338.

99. 刘芳, 刘佳雯, 刘颖, 刘跃. 新型      Ni(Ⅱ)      催化剂催化聚合乙烯电中性机理的量子化学研究. 分子科学学报 2004 ,      20 : 43-48.

100. Liu Y, Wang Q, Liu Y, Yang X-Z. Thermal      irreversibility study on the electrocyclic reaction of diaryl maleic      anhydrides by density functional calculations. Chemical      Physics Letters 2003 , 373(3-4) : 338-343.

101. LIU Y, LIU Y, Michael DG, LIU      J-W. Design and Theoretical Study of Nickel Catalysts for      Syndiotactic Polyolefins. Chinese Journal of Chemistry      2003 , 21(05) : 481–484.

102. Che C-b, Zhang H, Zhang X, Liu Y, Liu B. Ab Intio and      Kinetic Study on CH3 Radical Reaction with H2CO. The Journal      of Physical Chemistry A 2003 , 107(16) : 2929-2933.

103. 王骐, 刘跃, 刘颖. 2, 3- 二芳基马来酸酐环合反应机理的计算研究. 高等学校化学学报 2003 ,      24 : 1869-1872.

104. 刘跃, 杨照地, 刘颖. 水杨亚胺基钯催化聚合丙烯的密度泛函理论研究. 化学学报 2003 ,      61 : 1528-1532.

105. 刘跃, 王骐, 刘颖. 几种过渡态结构的有效优化方法研究. 分子科学学报 2003 ,      19 : 181-185.

106. 刘颖, 左霞, 吴谊群, 陈鹏刚, 励蓉, 王振荣. 磺化      2 ，      3- 萘酞菁锌（      II ）、钴（      II ）的电子吸收光谱和荧光光谱的研究. 分子科学学报 2003 ,      19 : 172-176.

107. 刘颖, 刘跃. 红收获蚁杜氏腺体细胞壁成分的气相色谱      / 质谱鉴定. 分析化学 2003 ,      31 : 1228-1230.

108. 刘佳雯, 刘跃. 新型      Ni(II) 催化剂催化乙烯聚合反应机理的密度泛函研究. 哈尔滨师范大学自然科学学报 2003 ,      19 : 57-60.

109. 刘跃, 王骐, 苏忠民, 刘颖. 用      Gaussian 98 程序计算钪和钛原子价层电子组态能量. 分子科学学报 2002 ,      18 : 98-102.

110. 刘跃, 刘颖. 红收获蚁信息素的鉴定. 分析化学 2002 ,      30 : 298-300.

111. 刘跃, 刘佳雯, 杨小震. 新型镍催化剂催化乙烯聚合的阳离子机理. 物理化学学报 2002 ,      18 : 1068-1070.

112. 刘颖, 刘跃. 理论化学. 黑龙江科学技术出版社 : 哈尔滨 , 2002 .

113. Liu Y, Yang X-z, Dai B-q, Su Z-m,      Wang Q. Conformation of 1,2-Dimethoxyethane in Water. Chemical      Research in Chinese Universities 2001 , 17(03) : 315-317.

114. 刘跃, 戴柏青. DME 构象的      ADF 研究. 分子科学学报 2000 ,      16 : 110-113.

115. 刘颖, 左霞, 吴谊群, 朱清桃, 陈耐生, 宋瑛林, et al. 四溴      -2 ，      3- 萘酞菁锌      (II) 的合成及非线性光线幅特性. 应用化学 2000 ,      17 : 569-571.

116. 刘颖 , 杜华 , 刘跃 . 逆反应一定使反应物的浓度增加吗 . 哈尔滨师范大学自然科学学报 2000 ,      16 : 52-57.

117. 宋瑛林 , 王玉晓 , 方光宇 , 常宏 , 吴谊群 , 刘颖 , et      al. 萘酞菁锌化合物的光限幅特性研究 . 光学技术 1999 (4) : 76-77-81.

118. 宋瑛林 , 王玉晓 , 董鉴奇 , 李俊庆 , 吴谊群 , 刘颖 , et      al. 高可见光透射率的溴取代萘酞菁锌化合物的光限幅特性研究 . 中国激光 1999 ,      26 : 325-326.

119. SONG      Y, WANG Y, LI J, FANG G, YANG X, Wu Y, LIU      Ying, et al. Study      on Optical Limiting Properties of a Novel Bromizated Naphthalocyanine. Proceedings      of SPIE, Photorefractive Materials: Phenomena and Related Applications II      1998 , 3554 241-245.

120. 刘颖, 刘跃. 影响光谱及能级的因素. 牡丹江师院学报 1998 (1) : 39      - 41.

121. Yang X, Liu Y, Hsu S. Conformation and chain packing structures of      poly-(p-phenylene benzobisthiazole) by molecular simulation. Chinese      Journal of Polymer Science 1997 , 15(04) : 295-304.

122. 刘跃, 杨小震. 分子模拟法研究高性能树脂 ── 聚苯撑苯并二噻唑分子链的构象与堆砌. 化学通报 1996 (4) : 32-34.

123. 刘跃, 贺子如, 刘颖. 平衡理论.      化学工业出版社      : 北京      , 1995 .

124. . 刘跃, 赵成大, 黄敬安. 双桥反应机理的从头计算研究. 物理化学学报 1994 ,      10 : 154-158.

125. 刘颖, 杨小震, 刘跃. 双桥反应及其应用. 化学通报 1994 (10) : 20-22.

126. 刘颖, 刘跃, 杨小震. 化学平衡中的极值. 化学通报 1994 (03) : 51      - 54.

127. 刘颖, 刘跃. 论反应商和反应进程的关系. 牡丹江师范学院学报 1994 (1) : 19      - 21.

128. Liu      Y, Yang XZ. A Study of Packing Structure of Poly(p-Phenylene      Benzobisthiaole) by Molecular Simulation. Chinese Chemical      Letters 1993 , 4(09) : 779-782.

129. 刘跃, 刘颖, 萧泰. 一类      Narcissistic 反应过渡态的优化. 化学研究与应用 1993 ,      5 : 97-99.

130. 刘跃. 定态波函数. 牡丹江师院学报 1992 (1) : 37 - 38.

申请书天花乱坠，成果一地鸡毛, 

科学研究不是深度挖掘根本不存在的关系