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プロフィール詳細
Dr. Haibiao C.に依頼
China
PhD in materials science and engineering with 20+ years of research experience in industry and academia.
プロフィール概要
専門分野
サービス
Writing
Technical Writing,
General Proofreading & Editing
Research
Fact Checking,
Scientific and Technical Research,
Systematic Literature Review
Consulting
Scientific and Technical Consulting
Data & AI
Image Processing,
Image Analysis
Product Development
Formulation,
Recipe Development
職務経験
Professor
Shenzhen Polytechnic
7月 2020 - 現在 ![]()
Research Professor
Peking University Shenzhen Graduate School
3月 2014 - 7月 2020 ![]()
Materials Scientist
UES Inc
2月 2011 - 2月 2014 ![]()
Development Engineer
Velocys Inc
4月 2006 - 12月 2010 ![]()
学歴
Ph.D. (Chemical Biomedical and Materials Engineering)
Stevens Institute of Technology
8月 2000 - 5月 2006 ![]()
Bachelor (Materials Science and Engineering)
Tsinghua University
9月 1995 - 7月 2000 ![]()
認定資格
- 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Haibiao Chen, Qin Shi, Yanan Wang, Ruoxun Wang, Jia Xu, Chen Zhang (2022). Amorphous Solid Dispersions: Role of the Polymer and Its Importance in Physical Stability and In Vitro Performance . Pharmaceutics.
Haibiao Chen, Qin Shi, Yanan Wang, Ruoxun Wang, Jia Xu, Chen Zhang (2022). Amorphous Solid Dispersions: Role of the Polymer and Its Importance in Physical Stability and In Vitro Performance . Pharmaceutics.
Haibiao Chen, Changcheng Yu, Qi Xiong, Kai Yang, Feng Pan(2021). A Programmable and Automated Platform for Integrated Synthesis and Evaluation of Water Electrolysis Catalysts . Advanced Materials Technologies. 6. (3). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2001036. Wiley
Yang, K., Jia, L., Liu, X., Wang, Z., Wang, Y., Li, Y., Chen, H., Wu, B., Yang, L., Pan, F.(2020). Revealing the anion intercalation behavior and surface evolution of graphite in dual-ion batteries via in situ AFM . Nano Research. 13. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 412-418.
Zhang, B., Lin, Z., Chen, H., Wang, L.-W., Pan, F.(2020). The stability and reaction mechanism of a LiF/electrolyte interface: Insight from density functional theory . Journal of Materials Chemistry A. 8. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2613-2617.
Wang, D., Chen, H., Min, Y., Liang, J., Pan, F.(2020). Tunable p-and n-type Nb:TiO<inf>2</inf>and performance optimizing of self-powered Nb:TiO<inf>2</inf>/CdS photodetectors . Semiconductor Science and Technology. 35. (7).
Ren, W., Ren, W., Mei, Z., Zheng, S., Li, S., Zhu, Y., Zhu, Y., Zheng, J., Lin, Y., Chen, H., et al.(2020). Wavelength-dependent solar N2 fixation into ammonia and nitrate in pure water . Research. 2020.
Chen, D., Zhang, M.-Z., Chen, H.-B., Xie, Z.-W., Wei, G.-W., Pan, F.(2020). Persistent homology for the quantitative analysis of the structure and stability of carboranes . Jiegou Huaxue. 39. (6). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 999-1008.
Yang, K., Yu, Z., Yu, C., Zhu, M., Yang, L., Chen, H., Pan, F.(2019). A Versatile Polymeric Precursor to High-Performance Silicon Composite Anode for Lithium-Ion Batteries . Energy Technology. 7. (7).
Yang, K., Yu, Z., Yu, C., Chen, H., Pan, F.(2019). An Electrically Renewable Air Filter with Integrated 3D Nanowire Networks . Advanced Materials Technologies. 4. (7).
Yang, K., Yu, C., Yu, Z., Zhu, M., Zhao, W., Chen, H., Pan, F.(2019). Hierarchically porous activated carbons derived from Schefflera octophylla leaves for high performance supercapacitors . Materials Letters. 247. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 102-105.
Min, Y., Yang, X., Wang, D., Yang, K., Zheng, S., Li, S., Chen, H., Liang, J., Pan, F.(2019). Tuning mixed-phase Nb-doped titania films for high-performance photocatalysts with enhanced whole-spectrum light absorption . Catalysis Science and Technology. 9. (21). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 6027-6036.
Liu, M., Zhao, Q., Liu, H., Yang, J., Chen, X., Yang, L., Cui, Y., Huang, W., Zhao, W., Song, A., et al.(2019). Tuning phase evolution of β-MnO<inf>2</inf> during microwave hydrothermal synthesis for high-performance aqueous Zn ion battery . Nano Energy. 64.
Zhao, Q., Chen, X., Wang, Z., Yang, L., Qin, R., Yang, J., Song, Y., Ding, S., Weng, M., Huang, W., et al.(2019). Unravelling H<sup>+</sup>/Zn<sup>2+</sup> Synergistic Intercalation in a Novel Phase of Manganese Oxide for High-Performance Aqueous Rechargeable Battery . Small. 15. (47).
Zeng, X., Zhang, D., Zhu, Y., Chen, M., Chen, H., Kasai, S., Meng, H., Goto, O.(2019). Insight into in-plane isotropic transport in anthracene-based organic semiconductors . Journal of Materials Chemistry C. 7. (45). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 14275-14283.
Gao, Z., Jiang, X., Wang, X., Chen, Y., Liu, J., Chen, H., Lin, Y., Pan, F.(2019). Rare-earth element doping in glass frit for improved performance in silicon solar cells . Functional Materials Letters. 12. (6).
Wang, Z., Tan, R., Wang, H., Yang, L., Hu, J., Chen, H., Pan, F.(2018). A Metal–Organic-Framework-Based Electrolyte with Nanowetted Interfaces for High-Energy-Density Solid-State Lithium Battery . Advanced Materials. 30. (2).
Zheng, J., Deng, W., Hu, Z., Zhuo, Z., Liu, F., Chen, H., Lin, Y., Yang, W., Amine, K., Li, R., et al.(2018). Asymmetric K/Li-Ion Battery Based on Intercalation Selectivity . ACS Energy Letters. 3. (1). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 65-71.
Wang, Z., Wang, Z., Yang, L., Wang, H., Song, Y., Han, L., Yang, K., Hu, J., Chen, H., Pan, F.(2018). Boosting interfacial Li<sup>+</sup> transport with a MOF-based ionic conductor for solid-state batteries . Nano Energy. 49. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 580-587.
Shan, P., Kong, D., Hu, J., Wang, H., Wang, Z., Yang, L., Chen, H., Pan, F.(2018). In-situ activation for optimizing meso-/microporous structure of hollow carbon shells for supercapacitors . Functional Materials Letters. 11. (3).
Feng, Y., Tan, R., Zhao, Y., Gao, R., Yang, L., Yang, J., Li, H., Zhou, G., Chen, H., Pan, F.(2018). Insight into fast ion migration kinetics of a new hybrid single Li-ion conductor based on aluminate complexes for solid-state Li-ion batteries . Nanoscale. 10. (13). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 5975-5984.
Chen, M., Zhu, Y., Yao, C., Zhang, D., Zeng, X., Murtaza, I., Chen, H., Kasai, S., Meng, H., Goto, O.(2018). Intrinsic charge carrier mobility in single-crystal OFET by “fast trapping vs. slow detrapping” model . Organic Electronics. 54. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 237-244.
Wang, H., Liu, L., Wang, R., Yan, X., Wang, Z., Hu, J., Chen, H., Jiang, S., Ni, L., Qiu, H., et al.(2018). Self-assembly of antisite defectless nano-lifepo<inf>4</inf> @c/ reduced graphene oxide microspheres for high-performance lithium-ion batteries . ChemSusChem. 11. (13). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2255-2261.
Zhang, G., Wang, H., Yang, J., Zhao, Q., Yang, L., Tang, H., Liu, C., Chen, H., Lin, Y., Pan, F.(2018). Temperature Effect on Co-Based Catalysts in Oxygen Evolution Reaction . Inorganic Chemistry. 57. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2766-2772.
Zhao, Q., Yang, J., Liu, M., Wang, R., Zhang, G., Wang, H., Tang, H., Liu, C., Mei, Z., Chen, H., et al.(2018). Tuning Electronic Push/Pull of Ni-Based Hydroxides to Enhance Hydrogen and Oxygen Evolution Reactions for Water Splitting . ACS Catalysis. 8. (6). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 5621-5629.
He, C., Li, A., Yan, L., Zhang, D., Zhu, Y., Chen, H., Meng, H., Goto, O.(2017). 2D and 3D Crystal Formation of 2,6-Bis[4-ethylphenyl]anthracene with Isotropic High Charge-Carrier Mobility . Advanced Electronic Materials. 3. (12).
Zhang, G., Yang, J., Wang, H., Chen, H., Yang, J., Pan, F.(2017). Co<inf>3</inf>O<inf>4-δ</inf> Quantum Dots As a Highly Efficient Oxygen Evolution Reaction Catalyst for Water Splitting . ACS Applied Materials and Interfaces. 9. (19). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 16159-16167.
Lin, L., Yang, K., Tan, R., Li, M., Fu, S., Liu, T., Chen, H., Pan, F.(2017). Effect of sulfur-containing additives on the formation of a solid-electrolyte interphase evaluated by: In situ AFM and ex situ characterizations . Journal of Materials Chemistry A. 5. (36). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 19364-19370.
Tian, L.-L., Yang, J., Weng, M.-Y., Tan, R., Zheng, J.-X., Chen, H.-B., Zhuang, Q.-C., Dai, L.-M., Pan, F.(2017). Fast Diffusion of O<inf>2</inf> on Nitrogen-Doped Graphene to Enhance Oxygen Reduction and Its Application for High-Rate Zn-Air Batteries . ACS Applied Materials and Interfaces. 9. (8). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 7125-7130.
Yang, J., Hu, J., Weng, M., Tan, R., Tian, L., Yang, J., Amine, J., Zheng, J., Chen, H., Pan, F.(2017). Fe-Cluster Pushing Electrons to N-Doped Graphitic Layers with Fe<inf>3</inf>C(Fe) Hybrid Nanostructure to Enhance O<inf>2</inf> Reduction Catalysis of Zn-Air Batteries . ACS Applied Materials and Interfaces. 9. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 4587-4596.
Lin, L., Yang, K., Chen, H., Pan, F.(2017). In situ atomic force microscope observing the effect of vinylene carbonate on the formation of solid-electrolyte interphase layer during the initial cycle . Functional Materials Letters. 10. (5).
Ren, W., Chen, H., Qiao, R., Lin, Y., Pan, F.(2017). In situ probing of interfacial kinetics for studying the electrochemical properties of active nano/micro-particles and the state of Li-ion batteries . Journal of Materials Chemistry A. 5. (43). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 22598-22606.
Wang, H., Wang, R., Liu, L., Jiang, S., Ni, L., Bie, X., Yang, X., Hu, J., Wang, Z., Chen, H., et al.(2017). In-situ self-polymerization restriction to form core-shell LiFePO<inf>4</inf>/C nanocomposite with ultrafast rate capability for high-power Li-ion batteries . Nano Energy. 39. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 346-354.
Liu, D., Zhao, Y., Tan, R., Tian, L.-L., Liu, Y., Chen, H., Pan, F.(2017). Novel conductive binder for high-performance silicon anodes in lithium ion batteries . Nano Energy. 36. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 206-212.
Zhu, M., Yang, J., Yu, Z., Chen, H., Pan, F.(2017). Novel hybrid Si nanocrystals embedded in a conductive SiO<inf>x</inf>@C matrix from one single precursor as a high performance anode material for lithium-ion batteries . Journal of Materials Chemistry A. 5. (15). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 7026-7034.
Yang, J., Wu, H., Zhu, M., Ren, W., Lin, Y., Chen, H., Pan, F.(2017). Optimized mesopores enabling enhanced rate performance in novel ultrahigh surface area meso-/microporous carbon for supercapacitors . Nano Energy. 33. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 453-461.
Hu, J., Yang, J., Duan, Y., Liu, C., Tang, H., Lin, L., Lin, Y., Chen, H., Pan, F.(2017). The synergistic effect achieved by combining different nitrogen-doped carbon shells for high performance capacitance . Chemical Communications. 53. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 857-860.
Yang, J., Hu, J., Zhu, M., Zhao, Y., Chen, H., Pan, F.(2017). Ultrahigh surface area meso/microporous carbon formed with self-template for high-voltage aqueous supercapacitors . Journal of Power Sources. 365. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 362-371.
Pei, Y., Pei, R., Liang, X., Wang, Y., Liu, L., Chen, H., Liang, J.(2016). CdS-Nanowires Flexible Photo-detector with Ag-Nanowires Electrode Based on Non-transfer Process . Scientific Reports. 6.
Wu, H., Yang, J., Chen, H., Pan, F.(2016). Revealing the nanodomain structure of silicon oxycarbide via preferential etching and pore analysis . Functional Materials Letters. 9. (3).
Chen, H., Parthasarathy, T.A., Cinibulk, M.K., Chen, M.-Y.(2014). Erratum: Processing, Characterization, and Modeling of Room-Temperature-Vulcanized Silicone-Derived Ceramic Foams (Journal of the American Ceramic Society (2014) 97:3 (733-741) DOI:10.1111/jace.12754) . Journal of the American Ceramic Society. 97. (9). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3012.
Chen, H., Parthasarathy, T.A., Cinibulk, M.K., Chen, M.-Y.(2014). Processing, characterization, and modeling of room-temperature-vulcanized silicone-derived ceramic foams . Journal of the American Ceramic Society. 97. (3). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 733-741.
Chen, H., Lee, W.Y.(2007). Synthesis of cellular silica structure under microchannel confinement . Journal of the American Ceramic Society. 90. (1). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 36-43.
Su, Y.-F., Chen, H., Lee, W.Y.(2005). Abnormal grain growth during rapid annealing of sol-gel alumina thin film deposited on Ni-based superalloy . Journal of the American Ceramic Society. 88. (11). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3235-3237.
Chen, H., Bednarova, L., Besser, R.S., Lee, W.Y.(2005). Surface-selective infiltration of thin-film catalyst into microchannel reactors . Applied Catalysis A: General. 286. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 186-195.
BOOK
Leslie, C.J., Kim, H.J., Chen, H., Walker, K.M., Boakye, E.E., Chen, C., Carney, C.M., Cinibulk, M.K., Chen, M.-Y.(2014). Polymer-derived ceramics for development of ultra-high temperature composites . Ceramic Transactions. 243. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 33-46.
CONFERENCE PAPER
Chen, H., Lee, W.(2005). Design and fabrication of infiltratable multiscale catalytic cellular structures into microchannel . 2005 AIChE Spring National Meeting, Conference Proceedings. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2997.
Bednarova, L., Ouyang, X., Chen, H., Lee, W.Y., Besser, R.S.(2003). Preferential oxidation of CO in a microreactor with a single channel . ACS Division of Fuel Chemistry, Preprints. 48. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 846-847.