Analysis report for Dr. Jinbo Pang’s publications during last ten years

Date:2023-07-05  Hits:

Analysis report for Dr. Jinbo Pang’s publications during last ten years

Dr. Jinbo Pang has a publication list around 36 co-authored papers during year 2010-2019.

Firstauthored paper: (11)：ACS Nano (1), Adv Energy Mater (1), ChemSoc Rev (1), Adv Optical Mater (1), JPCC (1), RSC Adv (1), J Mater Sci (1),Synthetic Metals (1), Physics Procedia (1), Frontiers of Chemical Science andEngineering (1) and so on

Correspondingauthored paper: (5): Applied Energy (1), Solar Energy MaterSolar Cells (2), Frontiers of Chemical Science and Engineering (2)

Otherco-authored paper: (21)：ACS Nano (1), Nano Energy (2), Chem Mater (2), J Power Sources(1), Frontiers of Chemical Science and Engineering (1), J Mater Sci (1),Crystals(1), and so on

Hereis the histogram of citation versus year from the papers of Dr. Pang (Figure 1).

Figure1The paper number and citation versus year (source: Scopus, Jinbo Pang, date:Dec 1, 2019, https://www.scopus.com/authid/detail.uri?authorId=57210960458)

Inbrief, the publication by year is presented in Table 1. There is an interesting trends When a new research starts, there is none publication in the same year(2009, 2014). However, there will be a big increase next year (2010, 2015). Thenafter awarded PhD degree, the number of corresponding authored paper keepsincreasing, which is 1 (2018), 3 (2019) and already 1 for year 2020 (notes: the written time for this report occurs at the end of year 2019).

Table 1 The year depending paper number of first author, corresponding author and briefnotes for reasons.

Year	Paper number	Ref.	First author	Correspondingauthor	Notes
2020	1	[1]	0	1	Year starts
2019	15	[2-16]	0	3	Assistant  Prof, UJN
2018	4	[17-20]	4	1	postdoc
2017	3	[21-23]	2	0	PhD  awarded, TU Dresden
2016	1	[24]	0	0
2015	4	[25-28]	3	0
2014	0	n.a.	0	0	PhD study  starts, Dresden
2013	1	[29]	0	0
2012	2	[30, 31]	1	0
2011	1	[32]	1	0
2010	4	[33-36]	0	0
2009	0	n.a.	0	0	Graduate  study starts, NKU
Sum	36	[1-36]	11	5

Cheers,

Jinbo Pang, Ph. D.

References

[1]. Cao, Y.; Zhu, X.; Jiang, J.; Liu, C.; Zhou, J.;Ni, J.; Zhang, J.; Pang, J. Rotational design of charge carrier transportlayers for optimal antimony trisulfide solar cells and its integration intandem devices. Sol. Energy Mater. Sol.Cells 2020, 206, 110279.

[2]. Zhou, Y.; Wang, Y.; Wang, K.; Kang, L.; Fei,P.; Wang, L.; Huang, Y.; Pang, J. Hybrid Genetic Algorithm Method for Efficientand Robust Evaluation of Remaining Useful Life of Supercapacitors. Applied Energy 2019, 10.1016/j.apenergy.2019.114169 (Just accepted).

[3]. Zhou, Y.; Huang, Y.; Pang, J.; Wang, K.Remaining useful life prediction for supercapacitor based on long short-termmemory neural network. J. Power Sources 2019, 440, 227149.

[4]. Yin, Y.; Pang, J.; Wang, J.; Lu, X.; Hao, Q.;Saei Ghareh Naz, E.; Zhou, X.; Ma, L.; Schmidt, O. G. Graphene-ActivatedOptoplasmonic Nanomembrane Cavities for Photodegradation Detection. ACS Appl Mater Interfaces 2019, 11, 15891−15897.

[5]. Xia, G.; Huang, Y.; Li, F.; Wang, L.; Pang, J.;Wang, K.; Li, L. Flexible Multi-Site Tactile/Thermal Sensor for DynamicPerceptual Imaging. Front. Chem. Sci.Eng. 2019, 8,10.1007/s11705-019-1901-5.

[6]. Wang, J.; Pang, J.; Liu, S.; Zhang, H.; Tang,W.; Xia, W. Experimental and dynamical study of a dual Q-switched intracavityOPO based on few-layer MoSe2 SA. OpticsExpress 2019, 27, 36474.

[7]. Shu, F.; Wang, M.; Pang, J.; Yu, P. Afree-standing superhydrophobic film for highly efficient removal of water fromturbine oil. Front. Chem. Sci. Eng. 2019, 13, 393-399.

[8]. Shang, X. T.; Li, S.; Wang, K.; Teng, X. L.;Wang, X.; Li, Q.; Pang, J.; Xu, J.; Cao, D. R.; Li, S. D. MnSe2/Se CompositeNanobelts as an Improved Performance Anode for Lithium Storage. Int. J. Electrochem. Sci. 2019, 14, 6000-6008.

[9]. Pang, J.; Mendes, R. G.; Bachmatiuk, A.; Zhao,L.; Ta, H. Q.; Gemming, T.; Liu, H.; Liu, Z.; Rummeli, M. H. Applications of 2DMXenes in energy conversion and storage systems. Chem. Soc. Rev. 2019,48, 72-133.

[10].      Mendes, R. G.; Pang, J.; Bachmatiuk, A.;Ta, H. Q.; Zhao, L.; Gemming, T.; Fu, L.; Liu, Z.; Rummeli, M. H.Electron-Driven In Situ Transmission Electron Microscopy of 2D Transition MetalDichalcogenides and Their 2D Heterostructures. ACS nano 2019, 13,978-995.

[11].       Martynkova, G. S.; Becerik, F.; Placha,D.; Pang, J.; Akbulut, H.; Bachmatiuk, A.; Rummeli, M. H. Effect of Milling andAnnealing on Carbon-Silver System. JNanosci Nanotechnol 2019, 19,2770-2774.

[12].      Liu, F.; Zeng, L. L.; Chen, Y. K.; Zhang,R. T.; Yang, R. Q.; Pang, J. B.; Ding, L. H.; Liu, H.; Zhou, W. J. Ni-Co-Nhybrid porous nanosheets on graphene paper for flexible and editable asymmetricall-solid-state supercapacitors. NanoEnergy 2019, 61, 18-26.

[13].      Han, Y.; Wang, H.; Qiang, L.; Gao, Y.; Li,Q.; Pang, J.; Liu, H.; Han, L.; Wu, Y.; Zhang, Y. Fabrication of a uniform Aunanodot array/monolayer graphene hybrid structure for high-performancesurface-enhanced Raman spectroscopy. J.Mater. Sci. 2019, 19.

[14].      Deng, Y.; Liu, Z.; Wang, A.; Sun, D.;Chen, Y.; Yang, L.; Pang, J.; Li, H.; Li, H.; Liu, H.; Zhou, W.Oxygen-incorporated MoX (X: S, Se or P) nanosheets via universal and controlledelectrochemical anodic activation for enhanced hydrogen evolution activity. Nano Energy 2019, 62, 338-347.

[15].      Cao, Y.; Zhu, X. Y.; Chen, H. B.; Zhang,X. T.; Zhou, J.; Hu, Z. Y.; Pang, J. B. Towards high efficiency inverted Sb2Se3thin film solar cells. Sol. Energy Mater.Sol. Cells 2019, 200, 109945.

[16].      Cao, Y.; Zhu, X.; Tong, X.; Zhou, J.; Ni,J.; Zhang, J.; Pang, J. Ultrathin microcrystalline Si/Ge alloyed tandem solarcells towards full solar spectrum conversion. Front. Chem. Sci. Eng. 2019,8, 10.1007/s11705-019-1906-0.

[17].      Wang, K.; Pang, J. B.; Li, L. W.; Zhou, S.Z.; Li, Y. H.; Zhang, T. Z. Synthesis of hydrophobic carbon nanotubes/reducedgraphene oxide composite films by flash light irradiation. Front. Chem. Sci. Eng. 2018,12, 376-382.

[18].      Soni, A.; Zhao, L.; Ta, H. Q.; Shi, Q.;Pang, J.; Wrobel, P. S.; Gemming, T.; Bachmatiuk, A.; Rummeli, M. H. Facilegraphitization of silicon nano-particles with ethanol based chemical vapordeposition. Nano-Structures &Nano-Objects 2018, 16, 38-44.

[19].      Pang, J. B.; Bachmatiuk, A.; Yin, Y.;Trzebicka, B.; Zhao, L.; Fu, L.; Mendes, R. G.; Gemming, T.; Liu, Z. F.;Rummeli, M. H. Applications of Phosphorene and Black Phosphorus in EnergyConversion and Storage Devices. Adv.Energy Mater. 2018, 8, 1702093.

[20].      Hao, Q.; Pang, J. B.; Zhang, Y.; Wang, J.W.; Ma, L. B.; Schmidt, O. G. Boosting the Photoluminescence of Monolayer MoS2on High-Density Nanodimer Arrays with Sub-10 nm Gap. Advanced Optical Materials 2018,6, 1700984.

[21].      Pang, J.; Mendes, R. G.; Wrobel, P. S.;Wlodarski, M. D.; Ta, H. Q.; Zhao, L.; Giebeler, L.; Trzebicka, B.; Gemming,T.; Fu, L.; Liu, Z.; Eckert, J.; Bachmatiuk, A.; Rummeli, M. H.Self-Terminating Confinement Approach for Large-Area Uniform Monolayer GrapheneDirectly over Si/SiOx by Chemical Vapor Deposition. ACS nano 2017, 11,1946-1956.

[22].      Pang, J. Thermal deposition approaches forgraphene growth over various substrates. PhDThesis (TU Dresden) 2017,Dresden, Germany.

[23].      Olszowska, K.; Pang, J. B.; Wrobel, P. S.;Zhao, L.; Ta, H. Q.; Liu, Z. F.; Trzebicka, B.; Bachmatiuk, A.; Rummeli, M. H.Three-dimensional nanostructured graphene: Synthesis and energy, environmentaland biomedical applications. SyntheticMet. 2017, 234, 53-85.

[24].      Ta, H. Q.; Zhao, L.; Pohl, D.; Pang, J.B.; Trzebicka, B.; Rellinghaus, B.; Pribat, D.; Gemming, T.; Liu, Z. F.;Bachmatiuk, A.; Rummeli, M. H. Graphene-Like ZnO: A Mini Review. Crystals 2016, 6, 100.

[25].     Pang, J. B.; Bachmatiuk, A.; Fu, L.; Yan,C. L.; Zeng, M. Q.; Wang, J.; Trzebicka, B.; Gemming, T.; Eckert, J.; Rummeli,M. H. Oxidation as A Means to Remove Surface Contaminants on Cu Foil Prior toGraphene Growth by Chemical Vapor Deposition. J. Phys. Chem. C 2015,119, 13363-13368.

[26].      Pang, J. B.; Bachmatiuk, A.; Fu, L.;Mendes, R. G.; Libera, M.; Placha, D.; Martynkova, G. S.; Trzebicka, B.;Gemming, T.; Eckert, J.; Rummeli, M. H. Direct synthesis of graphene fromadsorbed organic solvent molecules over copper. RSC Adv. 2015, 5,60884-60891.

[27].      Pang, J.; Bachmatiuk, A.; Ibrahim, I.; Fu,L.; Placha, D.; Martynkova, G. S.; Trzebicka, B.; Gemming, T.; Eckert, J.;Rümmeli, M. H. CVD growth of 1D and 2D sp2 carbon nanomaterials. J. Mater. Sci. 2015, 51, 640-667.

[28].      Ibrahim, I.; Kalbacova, J.; Engemaier, V.;Pang, J. B.; Rodriguez, R. D.; Grimm, D.; Gemming, T.; Zahn, D. R. T.; Schmidt,O. G.; Eckert, J.; Rummeli, M. H. Confirming the Dual Role of Etchants duringthe Enrichment of Semiconducting Single Wall Carbon Nanotubes by Chemical VaporDeposition. Chem. Mater. 2015, 27, 5964-5973.

[29].      Rummeli, M. H.; Gorantla, S.; Bachmatiuk,A.; Phieler, J.; Geissler, N.; Ibrahim, I.; Pang, J. B.; Eckert, J. On the Roleof Vapor Trapping for Chemical Vapor Deposition (CVD) Grown Graphene overCopper. Chem. Mater. 2013, 25, 4861-4866.

[30].      Pang, J. B.; Cai, Y. A.; He, Q.; Wang, H.;Jiang, W. L.; He, J. J.; Yu, T.; Liu, W.; Zhang, Y.; Sun, Y. Preparation andCharacteristics of MoSe2 Interlayer in Bifacial Cu(In,Ga)Se2 Solar Cells. Physics Procedia 2012, 32, 372-378.

[31].      Liu, W.; He, J. J.; Li, Z. G.; Jiang, W.L.; Pang, J. B.; Zhang, Y.; Sun, Y. Effect of Na on lower open circuit voltageof flexible CIGS thin-film solar cells prepared by the low-temperature process.Phys. Scripta 2012, 85, 055806.

[32].      逄金波. 出国留学如何申请含金量高的博士学位. 中国研究生 2011, 8, 29-30.

[33].      Wang, H.; Zhang, Y.; Kou, X. L.; Cai, Y.A.; Liu, W.; Yu, T.; Pang, J. B.; Li, C. J.; Sun, Y. Effect of substratetemperature on the structural and electrical properties of CIGS films based onthe one-stage co-evaporation process. SemiconductorScience and Technology 2010, 25,055007.

[34].      Ma, Y.; Wang, J.; He, D.; Pang, J.Accurate Line Detection by Adjusting Hough Transform Threshold Adaptively. 2010, 1-6.

[35].      Jiang, W.; Zhang, L.; He, Q.; Liu, W.; Yu,T.; Pang, J.; Li, F.; Li, C.; Sun, Y. High efficiency Cu(In,Ga)Se2 thin-filmsolar cells doped Na on polyimide substrate. Journal of Optoelectronics Laser 2010, 21, 222-226.

[36].      Jiang, W.; He, Q.; Liu, W.; Yu, T.; Liu,F.; Pang, J.; Li, F.; Li, C.; Sun, Y. Improved adhesion of CIGS thin film on polyimidesubstrate. Journal of OptoelectronicsLaser 2010, 21, 1657-1659.