As of December 31, 2023 , there were more than 11,290 documents (including English / Chinese / patent) published using XFNANO products based on incomplete statistics using Google Scholar , including 3 Nature , 1 Science, and 98 Articles in Nature sub-journal, 35 Articles in top journals such as Advanced Materials.

XFNANO has been deeply involved in the nanomaterials industry for 14 years and is committed to providing timely, stable and high-quality products and services to scientific researchers. XFNANO products have been widely used in many scientific research fields and have published the results of thousands of scientific researchers. It provides important support , especially the appearance of a large number of top journal articles, which once again proves that the quality of XFNANO’s products has been recognized by international authoritative organizations, and also allows more researchers to directly quote XFNANO’s materials (“ Nanjing/Jiangsu XFNANO Materials Tech Co.,Ltd ”) published articles which provide a lot of convenience and confirmation.

The following are some papers published using XFNANO products in 2023

1. Fang, Mingwei, et al. "Hydrophobic, Ultrastable Cuδ+ for Robust CO2 Electroreduction to C2 Products at Ampere-Current Levels." Journal of the American Chemical Society (2023).

XFNANO material ID: HKUST-1

2. Qiu, Chang‐Ding, et al. "Engineering Peculiar Cathode Electrolyte Interphase toward Sustainable and High‐Rate Li–S Batteries." Advanced Energy Materials (2023): 2300229.

XFNANO material ID: CMK-3

3. Zhu, Dezhi, et al. "Ultrafast laser plasmonic fabrication of nanocrystals by molecule modulation for photoresponse multifunctional structures." Advanced Materials 35.25 (2023): 2211983.

XFNANO materials ID: gold nanoparticles

4. Yang, et al. "Tunable, Wide‐Temperature and Macroscale Superlubricity Enabled by Nanoscale Van Der Waals Heterojunction‐To‐Homojunction Transformation." Advanced Materials (2023): 2303580.

XFNANO materials ID: molybdenum disulfide, tungsten disulfide

5. Zhang, Zhuojun, et al. "A Quantitative Understanding of Electron and Mass Transport Coupling in Lithium–Oxygen Batteries." Advanced Energy Materials 13.47 (2023): 2302816.

XFNANO materials ID: carbon nanotubes

6. Yuan, Yongjiu, et al. "Laser‐Induced Electron Synchronization Excitation for Photochemical Synthesis and Patterning Graphene‐Based Electrode." Advanced Materials (2023): 2308368.

XFNANO material ID: graphene oxide

7. Jiang C, Liu J, Ni Y, et al. Mammalian-brain-inspired neuromorphic motion-cognition nerve achieves cross-modal perceptual enhancement[J]. Nature Communications, 2023, 14(1): 1344.

XFNANO material ID: Molybdenum disulfide nanosheets

8. Zhang, Zhuang, et al. "Active mechanical haptics with high-fidelity perceptions for immersive virtual reality." Nature Machine Intelligence (2023): 1-13.

XFNANO material ID: silver nanowires

In 2023, XFNANO has successively launched single-atom catalysts, thermoelectric materials, Prussian blue, battery negative electrode special materials and other series, and expanded the spin coating/spray special silver nanowire series, biological nanomaterial series, layered double metal hydroxide (LDH ) and other series. At the same time, XFNANO's material customization projects have been carried out all year round. Many new products and "private customization" materials have been well received by scientific researchers. XFNANO products have been widely used in popular fields such as catalysis, optoelectronics, energy, and biology application.