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成果及论文

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2023

22. Progress on the mechanisms of Ru-based electrocatalysts for the oxygen evolution reaction in acidic media

Y. Shi, H. Wu, J. Chang*, Z. Tang, S. Y. Lu*, J. Energy Chem., 2023, 85, 220.


21. Brightening Blue Photoluminescence in Nonemission MOF‐2 by Pressure Treatment Engineering

T. Zhang, X. Yong, J. Yu, Y. Wang, M. Wu, Q. Yang, X. Hou, Z. Liu, K. Wang, X. Yang*, S. Y. Lu*, B. Zou*, Adv. Mater., 2023, 35, 2211729.

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20. Theoretical study on hydrogen evolution reaction in transition metal borides

X. Li, Z. Li, H. Liu*, S. Y. Lu*, Rare Metals, 2023, 42, 1808-1812.


19. Design strategies towards transition metal single atom catalysts for the oxygen reduction reaction–A review

Y. Cheng, H. Wang, H. Song, K. Zhang, G. Waterhouse, J. Chang*, Z. Tang, S. Y. Lu*, Nano Research Energy, 2023, 2, e9120082.


18. A Fe Single Atom Seed‐Mediated Strategy Toward Fe3C/Fe-N-C Catalysts with Outstanding Bifunctional ORR/OER Activities

J. Chang, Q. Zhang, J. Yu, W. Jing, S. Wang, G. Yin*, G. Waterhouse, S. Y. Lu*, Adv. Sci., 2023, 10, 2301656

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17. Carbon Dots with Blue‐to‐Near‐Infrared Lasing for Colorful Speckle‐Free Laser Imaging and Dynamical Holographic Display

Y. Zhang, J. Wang, L. Wang, R. Fu, L. Sui, H. Song, Y. Hu*, S. Y. Lu*, Adv. Mater., 2023, 35, 2302536

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16. Acid‐Triggered Aggregation of Carbon Dots Shifted Their Emission to Give Unexpected Deep‐Red Lasing

L. Tang, L. Ai, Z. Song, L. Sui, J. Yu, X. Yang, H. Song, B. Zhang, Y. Hu, Y. Zhang, Y. Tian, S. Y. Lu*, Adv. Funct. Mater., 2023, 33, 2303363

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15. Construction of Zn-doped RuO2 nanowires for efficient and stable water oxidation in acidic media

D. Zhang, M. Li, X. Yong, H. Song, G. Waterhouse, Y. Yi, B. Xue, D. Zhang, B. Liu*, S. Y. Lu*, Nat. Commun., 2023, 14, 2517


14. Disulfide Crosslinking‐Induced Aggregation: Towards Solid‐State Fluorescent Carbon Dots with Vastly Different Emission Colors

R. Fu, H. Song, X. Liu, Y. Zhang, G. Xiao, B. Zou, G. Waterhouse, S. Y. Lu*, Chinese J. Chem., 2023, 41, 1007-1014

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13. In Situ/Operando Methods for Understanding Electrocatalytic Nitrate Reduction Reaction

H. Wang, J. Huang, J. Cai*, Y. Wei, A. Cao, B. Liu*, S. Y. Lu*, Small Methods, 2023, 7, 2300169

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12. State-of-the-art of biomass-derived carbon dots: Preparation, properties, and applications

M. Fang, B. Wang, X. Qu, S. Li, J. Huang, J. Li, S. Y. Lu*, N. Zhou, Chinese Chem. Lett. 2023, 108423

Image, graphical abstract

11. Electrocatalytic Water Splitting: Mechanism and Electrocatalyst Design

H. Wu, Q. Huang, Y. Shi, J. Chang, S. Y. Lu*, Nano Res. 2023,16, 9142–9157

10. Solid-State Luminescence in Self-Assembled Chlorosalicylaldehyde-Modified Carbon Dots

T. Liu, G. Yin, Z. Song, J. Yu, X. Yong, B. Zhang, L. Ai*, S. Y. Lu*, ACS Mater. Lett. 2023, 5, 846-853

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9. Ligand‐Triggered Self‐Assembly of Flexible Carbon Dot Nanoribbons for Optoelectronic Memristor Devices and Neuromorphic Computing

L Ai, Y Pei, Z Song, X Yong, H Song, G Liu, M Nie, GIN Waterhouse, X. Yan*, S. Y. Lu*, Adv. Sci., 2023, 2207688

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8. Centralized Excited States and Fast Radiation Transitions Reduce Laser Threshold in Carbon Dots

Y. Zhang, L. Wang, Y. Hu, L. Sui, L. Cheng, S. Y. Lu*, Small, 2023, 2207983

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7. Defect-Rich Ruthenium Dioxide Electrocatalyst Enabled by Electronic Reservoir Effect of Carbonized Polymer Dot for Remarkable pH-Universal Oxygen Evolution

T. Feng, J. Yu, D. Yue, H. Song, S. Tao, GIN Waterhouse, S. Y. Lu*, B Yang*, Appl. Catal. B- Environ. 2023, 328, 122546

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6. Interfacial hydrogen bonding-involved electrocatalytic ammonia synthesis on OH-terminated MXene

J Cai, J. Huang, A Cao*, Y. Wei, Z. Jiang, Geoffrey I.N. Waterhouse, S. Y. Lu*, S. Zang*, Appl. Catal. B: Environ. 2023, 328, 122473

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5. Solid‐state Fluorescence from Carbon Dots Widely Tunable from Blue to Deep Red through Surface Ligand Modulation

L. Ai, Z. Song, M. Nie, J. Yu, F Liu, H. Song, B. Zhang, GIN Waterhouse, S. Y. Lu*, Angew. Chem. Int. Ed. 2023, 62 (12), e202217822

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4. Efficient bottom-up synthesis of graphene quantum dots at an atomically precise level

L. Shi, B. Wang, S. Y. Lu*, Matter 2023, 6 (3), 728-760

Figure1. The key to revealing the internal structure of GQDs at an atomically precise…

3. Full‐Color Circularly Polarized Luminescence of CsPbX3 Nanocrystals Triggered by Chiral Carbon Dots

Y. Ru, B. Zhang, X. Yong, L. Sui, J. Yu, H. Song, S. Y. Lu*Adv. Mater. 2023, 35(5), 2207265

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2. Carbon dots: mysterious past, vibrant present, and expansive future

B. Wang, Geoffrey IN Waterhouse, S. Y. Lu*, Trend. Chem. 2023, 5(1), 76-87

Figure 1. Research and development history of carbon dots (CDs)

1. Methanol-reduced Pd nanoparticles anchored on B, N-CDs@ CNT hybrid for oxygen reduction reaction

Y. Chen, J. Niu, Y. Pei, H. Song, Y. Fan, S. Y. Lu*, B. Liu*, Int. J. Hydrogen Energy, 2023, 48(13), 5116-5125

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2022

31. Confinement and passivation of perovskite quantum dots in porous natural palygorskite toward efficient and ultrastable light-harvesting system in water

G. Meng, X. Mu, L. Zhen, J. Hai, Z. Zhang, T. Hao, S. Y. Lu*, A. Wang*, B. Wang*, Chem. Sci., 2022, 13,14141

Graphical abstract: Confinement and passivation of perovskite quantum dots in porous natural palygorskite toward an efficient and ultrastable light-harvesting system in water

30. Aggregation in carbon dots

Y. Ru, S. Y. Lu*, Aggregate, 2022, e296

Details are in the caption following the image

29. Carbonized polymer dots: a novel single-particle organic-inorganic hybrid system

Y. Ru, S. Y. Lu*, ACTA POLYMERICA SINICA, 2022, 53, 812-827

Carbonized Polymer Dots: a Novel Single-particle Organic-inorganic Hybrid System


28. Rational Design of Covalent Bond Engineered Encapsulation Structure toward Efficient, Long‐Lived Multicolored Phosphorescent Carbon Dots

Y. Zhang, M. Li, S. Y. Lu*, Small, 2022, 2206080

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27. Precise carbon dots synthesis: building bridges between organic chemistry and inorganic chemistry

L. Shi, S. Y. Lu*; Sci. Bull, 2022, 67(23), 2369-2371

26. Dual sensitivity of spiropyran-functionalized carbon dots for full color conversions

L. Ai, H. Liu, R. Liu, H. Song, Z. Song, M. Nie, G. I. N. Waterhouse, S. Y. Lu*, Sci. China Chem. 2022. 65, 2274–2282

25. Carbon dots are shining in the world

S. Y. Lu, B. Yang, Smartmat, 2022, 3, 207


24. Strategies and challenges for enhancing performance of MXene-based gas sensors: a review

H. Zhang, J. Xuan, Q. Zhang, M. Sun, F. Jia, X. Wang, G. Yin*, S. Y. Lu*, Rare Met., 2022, 41, 3976–3999.

23. Sacrificial agents for photocatalytic hydrogen production: Effects, cost, and development

T. Zhang*, S. Y. Lu*; Chem Catal. 2022, 2, 1502-1505

22. Strategies for designing efficient electrocatalytic HER catalysts at the atomic scale

S. Y. Lu*, T. Zhang*; Chem Catal. 2022, 2, 1505-1509

Figure1. Schematic diagram of the research status of HER catalysts

21. Single stain hyperspectral imaging for accurate fungal pathogens identification and quantification

Y. Zhang, K. Liu, J. Yu, H. Chen, R. Fu, S. Zhu, Z. Chen, S. Wang, S. Y. Lu*, Nano Res. 2022, 15, 6399–6406

20. Carbon dots-derived carbon nanoflowers decorated with cobalt single atoms and nanoparticles as efficient electrocatalysts for oxygen reduction

Y. Cheng, H. Song, J. Yu, J. Chang*, G . Waterhouse, Z. Tang, B. Yang, S. Y. Lu*, X. YanChinese J. Catal., 2022, 43, 2443-2452


19. Carbon dots as new building blocks for electrochemical energy storage and electrocatalysis

Y. Zhai, B. Zhang, R. Shi, S. Zhang, Y. Liu*, B. Wang, K. Zhang, G. Waterhouse, T. Zhang*, S. Y. Lu*; Adv. Energy Mater., 2022, 12, 2103426

18. N-doped carbon dots coupled NiFe-LDH hybrids for robust electrocatalytic alkaline water and seawater oxidation

P. Ding, H. Song, J. Chang*, S. Y. Lu*; Nano Res., 2022, 15, 7063-7070

17. Electrocatalytic nitrate-to-ammonia conversion with~ 100% Faradaic efficiency via single-atom alloying

J. Cai, Y. Wei, A. Cao, J. Huang, Z. Jiang, S. Y. Lu*, S. Zang*; Appl. Catal. B: Environ., 2022, 316, 121683

16. Simulating the Structure of Carbon Dots via Crystalline π‐aggregated Organic Nanodots Prepared by Kinetically Trapped Self‐assembly

J. Yang, L. Guo, X. Yong, T. Zhang, B. Wang, H. Song, Y. Zhao, H. Hou, B Yang, J Ding*, and S. Y. Lu*; Angew. Chem. Int. Ed. 2022, 61, e202207817 

15. Electron–phonon coupling-assisted universal red luminescence of o-phenylenediamine-based carbon dots

B. Wang, Z. Wei, L. Sui, J. Yu, B. Zhang, X. Wang, S. Feng, H. Song, X. Yong, Y. Tian*, B. Yang, and S. Y. Lu*; Light Sci. Appl. 2022, 11, 172

14.  Cross-linking enhanced room-temperature phosphorescence of carbon dots

B. Wang, Z. Sun, J. Yu, G. I. N. Waterhouse, S. Y. Lu*, B. Yang*; SmartMat. 2022; 3, 337348.

13.  Self-Supporting Carbon Nanofibers with Ni-Single-Atoms and Uniformly Dispersed Ni-Nanoparticles as Scalable Multifunctional Hosts for High Energy Density  Lithium-Sulfur Batteries. 

H. Pei, Q. Yang, J. Yu, H. Song, S. Zhao, G. I. N. Waterhouse, J. Guo,* and S. Y. Lu*; Small, 2022, 2202037

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12. Exclusive nitrate to ammonia conversion via boron-doped carbon dots induced surface Lewis acid sites

X. Lu, J. Yu, J. Cai, Q. Zhang, S. Yang, L. Gu, G. I. N. Waterhouse, S. Zang, B. Yang, S. Y. Lu*; Cell Reports Physical Science, https://doi.org/10.1016/j.xcrp.2022.100961


11. Carbon Dots in Bioimaging, Biosensing and Therapeutics: A Comprehensive Review

B. Wang, H. Cai, G. I. N. Waterhouse, X. Qu, B. Yang, S. Y. Lu*; Small Sci. 2022,2, 2200012

10. Photoluminescence mechanismsof red-emissive carbon dots derived from non-conjugated molecules

X. Yang, L. Ai, J. Yu, G. I. N. Waterhouse, L. Sui, J. Ding, B. Zhang, X. Yong, S. Y. Lu*; Sci. Bull., 2022, 67, 1450-1457


9.Which kind of nitrogen chemical states doped carbon dots loaded by g-C3N4 is the best for photocatalytic hydrogen production

S. Zhang, M. Gao, Y. Zhai*, J. Wen, J. Yu, T. He, Z. Kang*, S. Y. Lu*; J. Colloid Inter. Sci., 2022, 622, 622

8.“The Light of Carbon Dots: From Mechanism to Applications

B. Wang and S. Y. Lu*, Matter, 2022, 5, 110-149.

7.“Halogen-Doped Carbon Dots on Amorphous Cobalt Phosphide as Robust Electrocatalysts for Overall Water Splitting

H. Song, J. Yu, Z. Tang, B. Yang, S. Y. Lu*, Adv. Energy Mater. 2022, 2102573.

6.“Carbon-Dot-Enhanced Electrocatalytic Hydrogen Evolution”

H. Wu, S. Y. Lu*, and B. Yang*, Acc. Mater. Res. 2022, 3, 319-330.

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5.“Memristors based on Carbon Dots for Learning Activities in Artificial Biosynapse Applications”

X. Li, Y. Pei, Y. Zhao, H. Song, J. Zhao, L. Yan, H. He, S. Y. Lu*, X. Yan*, Mater. Chem. Front., 2022, 6, 1098

 Graphical abstract: Memristors based on carbon dots for learning activities in artificial biosynapse applications

4.“Carbon Dots as a Potential Therapeutic Agent for the Treatment of cancer-related Anemia”

Y. Xu, B. Wang, M. Zhang, J. Zhang, Y. Li, P. Jia, H. Zhang, L. Duan, Y. Li, Y. Li, X. Qu, S. Wang, D. Liu, W. Zhou, H. Zhao, H. Zhang, L. Chen, X. An,* S. Y. Lu* and S. Zhang*; Adv.Mater. 2022, 34, 2200905

3.“Ethanol-Derived White Emissive Carbon Dots: the Formation Process Investigation and Multi-Color/White LEDs Preparation”B. Wang, H. Song, Z. Tang, B. Yang, S. Y. Lu*, Nano Research, 2022,  15, 942-949.

2.“Advances, opportunities, and challenge for full-color emissive carbon dots”

X. Yang, X. Li, B. Wang, L. Ai*, G. Li*, B. Yang, S. Y. Lu*, Chinese Chem. Lett., 2022, 33, 613-625.

Image, graphical abstract

1.“Effects of local matrix environment on the spectroscopic properties of ensemble to single-particle level carbon dots”

Z. Wei, B. Wang, M.Xie, D. Hong, X. Yang, S. Wan, W. Yang, S. Y. Lu*, Y. Tian*, Chinese Chem. Lett., 2022, 33, 751-756.

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2021

1.“In Situ Activated Co3–xNixO4 as a Highly Active and Ultrastable Electrocatalyst for Hydrogen Generation”

K. Guo, Y. Wang, J. Huang, M. Lu, H. Li, Y. Peng, P. Xi, H. Zhang, J. Huang*, S. Y. Lu*, and C. Xu*, ACS Catal. 2021, 11, 8174–8182.

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2.“Transformable Honeycomb‐like Nanoassemblies of Carbon Dots for Regulated Multisite Delivery and Enhanced Antitumor Chemoimmunotherapy”

L. Hou*, D. Chen, R. Wang, R. Wang, H. Zhang, Z. Zhang, Z. Nie* and S. Y. Lu*Angew. Chem. Int. Ed., 2021, 60, 6581-6592.

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3.“Pressure‐Triggered Blue Emission of Zero‐Dimensional Organic Bismuth Bromide Perovskite”

M. Sun, T. Geng, X. Yong, S. Y. Lu*, L. Ai, G. Xiao*, J. Cai, B. Zou* and S. Q. Zang*, Adv. Sci., 2021, 2004853.

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4.“Embedding CsPbBr3 quantum dots into a pillar [5] arene-based supramolecular self-assembly for an efficient photocatalytic cross-coupling hydrogen evolution reaction”

K. Zhong, S. Y. Lu*, W. Guo, J. Su, S. Sun, J. Hai, F. Chen, A. Wang* and B. Wang*, J. Mater. Chem. A, 2021,9, 10180-10185.

Graphical abstract: Embedding CsPbBr3 quantum dots into a pillar[5]arene-based supramolecular self-assembly for an efficient photocatalytic cross-coupling hydrogen evolution reaction

5.“New-phase retention in colloidal core/shell nanocrystals via pressure-modulated phase engineering”

Y. Wang, H. Liu, M. Wu, K. Wang, Y. Sui, Z. Liu, S. Y. Lu*, Z. Nie, J. S. Tse, X. Yang*, B. Zou*, Chem. Sci., 2021, 12, 6580-6587.

Graphical abstract: New-phase retention in colloidal core/shell nanocrystals via pressure-modulated phase engineering

6.“Theoretical Understanding of Structure-Property Relationships in Luminescence of Carbon Dots”

J. Yu, X. Yong*, Z. Tang, B. Yang, and S. Y. Lu*, J. Phys. Chem. Lett. 2021, 12, 7671-7687.

Abstract Image

7.“Carbon Dots Enhance Ruthenium Nanoparticles for Efficient Hydrogen Production in Alkaline

Y. Liu, W. Li, H. Wu and S. Y. Lu*Acta. Phys-Chim. Sin., 2021, 37. 

Carbon‐Quantum‐Dots‐Loaded Ruthenium Nanoparticles as an Efficient  Electrocatalyst for Hydrogen Production in Alkaline Media - Li - 2018 -  Advanced Materials - Wiley Online Library

8.“Single Atom Ruthenium‐Doped CoP/CDs Nanosheets via Splicing of Carbon‐Dots for Robust Hydrogen Production

H. Song, M. Wu, Z. Tang, J. S. Tse, B. Yang and S. Y. Lu*Angew. Chem. Int. Edit., 2021, 60, 7234-7244.

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9.“Rational Design of Multi‐color‐emitting Chiral Carbonized Polymer Dots for Full‐color and White Circularly Polarized Luminescence

Y. Ru, L. Sui, H. Song, X. Liu, Z. Tang, S. Zang, B. Yang and S. Y. Lu*Angew. Chem. Int. Edit., 2021, 60, 14091.

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10.“Engineering White Light-Emitting Diodes with High Color Rendering Index from Biomass Carbonized Polymer Dots”

W. Meng, B. Wang, L. Ai, H. Song and S. Y. Lu*, J. Colloid Interf. Sci., 2021, 598, 272.

11.“Carbon Dots-Confined CoP-CoO Nanoheterostructure with Strong Interfacial Synergy Triggered the Robust Hydrogen Evolution from Ammonia Borane

H. Wu, Y. Cheng, B. Wang, Y. Wang, M. Wu*, W. Li, B. Liu* and S. Y. Lu*J. Energy Chem., 2021, 57, 198-205.

12.“Efficient Combination of G‐C3N4 and CDs for Enhanced Photocatalytic Performance: A Review of Synthesis, Strategies, and Applications

L. Ai, R. Shi, J. Yang, K. Zhang, T. Zhang* and S. Y. Lu*, Small, 2021, 2007523.

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13.“Exploiting Ru‐Induced Lattice Strain in CoRu Nanoalloys for Robust Bifunctional Hydrogen Production

W. Li, Y. Zhao, Y. Liu, M. Sun, G. I. Waterhouse, B. Huang*, K. Zhang, T. Zhang and S. Y. Lu*Angew. Chem. Int. Ed., 2021, 60, 3290-3298.

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14.“Rational Design of Multi‐Color‐Emissive Carbon Dots in a Single Reaction System by Hydrothermal”

B. Wang, J. Yu, L. Sui, S. Zhu, Z. Tang, B. Yang and S. Y. Lu*, Adv. Sci., 2021, 8, 2001453.

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15. “NiFe Layered-Double-Hydroxide Nanosheet Arrays on Graphite Felt: A 3D Electrocatalyst for Highly Efficient Water Oxidation in Alkaline Media”

P. Ding, C. Meng, J. Liang, T. Li, Y. Wang, Q. Liu*, Y. Luo, G. Cui, A. M. Asiri, S. Y. Lu*, and X. Sun**, Inorg. Chem. 2021, 60, 17, 12703–12708.

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16.“Recent development of electrochemical nitrate reduction to ammonia: A mini review

X. Lu, H. Song, J. Cai*, S. Y. Lu*, Electrochem. Commun., 2021, 129, 107094.

17.“Carbon dots as a new class of nanomedicines: Opportunities and challenges

B. Wang, H. Song, X. Qu*, J. Chang, B. Yang, S. Y. Lu*, Coordin. Chem. Rev., 2021, 442, 214010.

 18.“Computational Studies on Carbon Dots Electrocatalysis: A Review”

J. Yu, H. Song, X. Li, L. Tang, Z. Tang, B. Yang, S. Y. Lu*, Adv. Funct. Mater., 2021, 31, 2107196.

19.“Facile Synthesis of Water-Stable Multicolor Carbonized Polymer Dots from a Single Unconjugated Glucose for Engineering White Light-Emitting Diodes with a High Color Rendering Index”

Y. Zhao, C. Ou, J. Yu, Y. Zhang*, H. Song, Y. Zhai*, Z. Tang, S. Y. Lu*, ACS Appl. Mater. Interfaces, 2021, 13, 30098-30105

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20.“Boron–nitrogen-doped carbon dots on multi-walled carbon nanotubes for efficient electrocatalysis of oxygen reduction reactions”

Y. Pei, H. Song, Y. Liu, Y. Cheng, W. Li, Y. Chen*, Y. Fan, B. Liu*, S. Y. Lu*, J. Colloid Interface Sci., 2021, 600, 865-871.

21.“Solid-State Red Laser with a Single Longitudinal Mode from Carbon Dots”

Y. Zhang, H. Song, L. Wang, J. Yu, B. Wang, Y. Hu*, S. Zang, B. Yang, S. Y. Lu*, Angew. Chem. Int. Ed., 2021, 60, 25514-25521.

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22.“Advances and challenges in 2D MXenes: From structures to energy storage and conversions”

W. Meng, X. Liu, H. Song, Y. Xie, X. Shi, M. Dargusch, Z. Chen*, Z. Tang, S. Y. Lu*, Nano Today, 2021, 40, 101273.

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23.“Engineering the synergistic effect of carbon dots-stabilizedatomic and subnanometric ruthenium as highly efficientelectrocatalysts for robust hydrogen evolution”

Y. Liu, N. Chen, W. Li, M. Sun, T. Wu, B. Huang*, X. Yong, Q. Zhang, L. Gu, H. Song, R. Bauer, J. S. Tse*, S. Zang, B. Yang, S. Y. Lu*, SmartMat., 2022, 3, 249-259.

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24.Red-emitting, self-oxidizing carbon dots for the preparation of white LEDs with super-high color rendering index”

X. Yang, L. Sui, B. Wang, Y. Zhang, Z. Tang, B. Yang, S. Y. Lu*, Sci. Chin. Chem., 2021, 64, 1547-1553.

 

 25.   Rational Building of Nonblinking Carbon Dots via Charged State Recovery

Y. Wei, B. Wang,D. Hong, M. Xie, S. Wan, W. Yang, S. Y. Lu*and Y. Tian*; J. Phys. Chem. Lett. 2021, 12, 86148620

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2020

1. “Insights into Photoluminescence Mechanisms of Carbon Dots: Advances and Perspectives

L. Ai, Y. Yang, B. Wang, J. Chang, Z. Tang, B. Yang and S. Y. Lu*Sci. Bull.,  2021, 66, 839-856.

2. “ROS-initiated chemiluminescence-driven payload release from macrocycle-based Azo-containing polymer nanocapsules”

C. Sun, Z. Wang, L. Yue, Q. Huang, S. Y. Lu*, R. Wang*, J. Mater. Chem. B, 2020,8, 8878-8883

Graphical abstract: ROS-initiated chemiluminescence-driven payload release from macrocycle-based Azo-containing polymer nanocapsules

3. “Metal-Catalyzed Hydrolysis of Ammonia Borane: Mechanism, Catalysts, and Challenges

H. Wu, Y. Cheng, Y. Fan, X. Lu, L. Li, B. Liu*, B. Li and S. Y. Lu*Int. J. Hydrogen Energ., 2020, 08, 30325-30340.

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4. “Recent Advances in Chiral Carbonized Polymer Dots: from Synthesis and Properties to Applications”

Y. Ru, L. Ai, T. Jia, X. Liu, S. Y. Lu*, Z. Tang and B. Yang*, Nano Today, 2020, 34, 100953.

5. “Defects Enhance the Electrocatalytic Hydrogen Evolution Properties of MoS2‐based Materials

Y. Cheng, H. Song, H. Wu, P. Zhang*, Z. Tang and S. Y. Lu*Chem. Asian J., 2020,  15, 3123-3134.

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6. “Photoactivated Fluorescence Enhancement in F, N‐Doped Carbon Dots with Piezochromic Behavior

L. Jiang, H. Ding, S. Y. Lu*, T. Geng, G. Xiao*, B. Zou and H. Bi*, Angew. Chem. Int. Edit., 2020, 59, 9986-9991.

Description unavailable

7. “Interface electron collaborative migration of Co–Co3O4/carbon dots: Boosting the hydrolytic dehydrogenation of ammonia borane

H. Wu, M. Wu, B. Wang, X. Yong, Y. Liu, B. Li, B. Liu and S. Y. Lu*J. Energy Chem., 2020, 48, 43-53.

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8. “Carbon Dots and RuP2 Nanohybrid as an Efficient Bifunctional Catalyst for Electrochemical Hydrogen Evolution Reaction and Hydrolysis of Ammonia Borane

H. Song, Y. Cheng, B. Li, Y. Fan, B. Liu*, Z. Tang and S. Y. Lu*ACS Sustain. Chem. Eng., 2020, 8, 3995-4002.

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9. “Pressure-Induced Emission Enhancements of Mn2+-Doped Cesium Lead Chloride Perovskite Nanocrystals

Y. Cao, G. Qi, L. Sui, Y. Shi, T. Geng, D. Zhao, K. Wang, K. Yuan, G. Wu, G. Xiao*, S. Y. Lu* and B. Zou*, ACS Mater. Lett., 2020, 2, 381-388.

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10. “UV–Vis–NIR Full‐Range Responsive Carbon Dots with Large Multiphoton Absorption Cross Sections and Deep‐Red Fluorescence at Nucleoli and In Vivo

L. Jiang, H. Ding, M. Xu, X. Hu, S. Li, M. Zhang, Q. Zhang, Q. Wang*, S. Y. Lu* and Y. Tian*, Small, 2020, 16, 2000680.

Description unavailable

11. “Designed controllable nitrogen-doped carbon-dots-loaded MoP nanoparticles for boosting hydrogen evolution reaction in alkaline medium

H. Song, Y. Li, L. Shang, Z. Tang, T. Zhang* and S. Y. Lu*Nano Energy, 2020, 72, 104730.

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12. “Metal-Based Electrocatalytic Conversion of CO2 to Formic Acid/Formate

P. Ding, H. Zhao, T. Li, Y. Luo, G. Fan, G. Chen, S. Gao, X. Shi, S. Y. Lu* and X. Sun*, J. Mater. Chem. A, 2020, 8, 21947-21960.

Graphical abstract: Metal-based electrocatalytic conversion of CO2 to formic acid/formate

13. “A General Route to Prepare Low‐Ruthenium‐Content Bimetallic Electrocatalysts for pH‐Universal Hydrogen Evolution Reaction by Using Carbon Quantum dots

Y. Liu, X. Li, Q. Zhang, W. Li, Y. Xie, H. Liu, L. Shang, Z. Liu, Z. Chen, L. Gu, Z. Tang, T. Zhang* and S. Y. Lu*Angew. Chem. Int. Edit., 2020, 59, 1718-1726.

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14. “Bi and Sn Co-doping Enhanced Thermoelectric Properties of Cu3SbS4 Materials with Excellent Thermal Stability

M. Shen, S. Y. Lu*, Z. Zhang, H. Liu, W. Shen, C. Fang, Q. Wang, L. Chen, Y. Zhang* and X. Jia, ACS Appl. Mater. Interfaces, 2020, 12, 8271-8279.

15. “S, N-Codoped Oil-Soluble Fluorescent Carbon Dots for a High Color-Rendering WLED

Q. Wang, Y. Gao, B. Wang, Y. Guo, U. Ahmad, Y. Wang, Y. Wang*, S. Y. Lu*, H. Li and G. Zhou, J. Mater. Chem. C, 2020, 8, 4343-4349.

Graphical abstract: S,N-Codoped oil-soluble fluorescent carbon dots for a high color-rendering WLED

16. “Carbon Quantum Dots Enhanced the Activity for the Hydrogen Evolution Reaction in Ruthenium-Based Electrocatalysts

W. Li, Z. Wei, B. Wang, Y. Liu, H. Song, Z. Tang, B. Yang and S. Y. Lu*Mater. Chem. Front., 2020, 4, 277-284.

Graphical abstract: Carbon quantum dots enhanced the activity for the hydrogen evolution reaction in ruthenium-based electrocatalysts


2019

1. "Photoactivated Fluorescence Enhancement in F,N‐Doped Carbon Dots with Piezochromic Behavior"

L. Jiang, H. Ding, S. Y. Lu*, T. Geng, G. Xiao, B. Zou, H. Bi*, Angew. Chem. Int. Ed. 2019, 9986-9991.

Description unavailable

2. "Stable Hybrid Perovskite MAPb(I1−xBrx)3 for Photocatalytic Hydrogen Evolution"

Z. Zhao, J. Wu, Y. Zheng,* N. Li, X. Li, Z. Ye, S. Y. Lu*, X. Tao,* C. Chen, Appl. Catal. B-ENVIRON., 2019, 253, 41-43.

3. "Green Synthesis of Nitrogen and Sulfur Co-doped Carbon Dots from Allium Fistulosum for Cell Imaging"

Z. H. Wei, B. Y. Wang, Y. Liu, Z. Y. Liu, H. Zhang, S. J. Zhang, J. B. Chang and S. Y. Lu*, New J. Chem., 2019, 43, 718-723.

Graphical abstract: Green synthesis of nitrogen and sulfur co-doped carbon dots from Allium fistulosum for cell imaging

4.“Carbon Dots as a Potential Therapeutic Agent for Anemia Treatment in Malignancies”
L. Yuan, B. Wang, H. Zhang, X. Qu, M, Zhang, X. An, S. Y. Lu*, S. Zhang*, Blood, 2019, 134, 941.

5. “High production-yield solid-state carbon dots with tunable photoluminescence for white/multi-color light-emitting diodes”

H. Song, X.  Liu, B. Wang, Z. Tang, S. Y. Lu*Sci. Bull., 2019, 64, 1788-1794.

6. “High pressure advances in carbon dots”

T. Geng, C. Liu, G. J. Xiao*, S. Y. Lu*, B. Zou, Mater. Chem. Front., 2019, 3, 2617-2626.

Graphical abstract: Advances in the application of high pressure in carbon dots

7. “Hollow carbon shells enhanced by confined ruthenjum for cost-efficient and superior catalysts in alkaline hydrogen evolution reaction”

Z. Peng, H. Wang, L. Zhou, Y. Wang, J. Gao, G. J. Liu, Simon A. T. Redfern, X.  Feng, S. Y. Lu*, B. Li*, Z. Liu*, J. Mater. Chem. A., 2019, 7, 6676-6685

Graphical abstract: Hollow carbon shells enhanced by confined ruthenium as cost-efficient and superior catalysts for the alkaline hydrogen evolution reaction

8. “Self-crosslinking carbon dots loaded ruthenium dots as an efficient and super-stable hydrogen production electrocatalyst at all pH values”

Y. Liu, Y. Yang, Z. Peng, Z. Liu, Z. Chen, S. Y. Lu*, T. Zhang* , Nano Energy, 2019, 65, 104023.

Image 1

9. “Near-infrared emissive carbon dots with 33.96% emission in aqueous solution for cellular sensing and light-emitting diodes”

B. Wang, J. Li, Z. Tang, B. Yang, S. Y. Lu*, Sci. Bull., 2019, 64, 1285-1292

10. “Kilogram-scale synthesis of carbon quantum dots for hydrogen evolution, sensing and bioimaging”

W. Li, Y. Liu, B. Wang, H. Song, Z. Liu, S. Y. Lu*, B. Yang, Chinese Chem. Lett., 2019, 30, 2323-2327.

11.“Pressure-triggered aggregation-induced emission enhancement in red emissive amorphous carbon dots”

Q. Wang,  S. Zhang,  B. Wang,  X. Yang*,  B. Zou,  B. Yang, S. Y. Lu*Nanoscale Horiz., 2019, 4, 1227-1231.

Graphical abstract: Pressure-triggered aggregation-induced emission enhancement in red emissive amorphous carbon dots

12.“Biomass derived carbon dots and their applications”

W. Meng, X. Bai, B. Wang, Z. Liu, S. Y. Lu*, B. Yang, Energy Environ. Mater, 2019, 2, 172-192.

Description unavailable

13.“Hard BN Clathrate Superconductors”

X. Li, X. Yong, M. Wu, S. Y. Lu*, H. Liu*, S. Meng, John S. Tse, Y.  Li*, J. Phys. Chem. Lett., 2019, 10, 2554-2560.

Abstract Image

14.“Stable Hybrid Perovskite MAPb(I1−xBrx)3 for Photocatalytic Hydrogen Evolution”

Z. Zhao, J. Wu, Y. Zheng,* N. Li, X. Z. Ye, S. Y. Lu*, X. Tao,* Applied Catal. B-Environ., 2019,253,41-48

15.“Cobalt-ruthenium nanoalloys parceled in porous nitrogen-doped graphene as highly efficient difunctional catalysts for hydrogen evolution reaction and hydrolysis of ammonia borane”

Z. Wei, Y. Liu, Z. Peng, H. Song, Z. Liu, B. Liu, B. Li, B. Yang, S. Y. Lu*ACS Sustainable Chem. Eng., 2019, 7, 7014-7023.

Abstract Image

16.“White Photoluminescent Ti3C2 MXene Quantum Dots with Two-Photon Fluorescence”

S. Y. Lu*, L. Z. Sui, Y. Liu, X. Yong, G. J. Xiao*, K. J. Yuan, Z. Y. Liu, B. Z. Liu*, B. Zou and Bai Yang, Adv. Sci., 2019, 6, 1801470.

Description unavailable

17.“Insights into supramolecular-interaction-regulated piezochromic carbonized polymer dots”

T. Geng, T. L. Feng, Z. W. Ma,  Y. Cao, Y. P. Chen, S. Y. Tao, G. J. Xiao*, S. Y. Lu*, Bai Yang and Bo Zou, Nanoscale, 2019, 11, 5072-5079.

Graphical abstract: Insights into supramolecular-interaction-regulated piezochromic carbonized polymer dots

18.“Unified Catalyst for Efficient and Stable Hydrogen Production by Both the Electrolysis of Water and the Hydrolysis of Ammonia Borane”

Y. Liu, X. Yong, Z. Y. Liu, Z. M. Chen,* Z. H. Kang* ,S. Y. Lu*Adv. Sustainable Syst.,2019, 1800161.

Description unavailable

19.“Green Synthesis of Nitrogen and Sulfur Co-doped Carbon Dots from Allium Fistulosum for Cell Imaging”

Z. H. Wei, B. Y. Wang, Y. Liu, Z. Y. Liu, H. Zhang, S. J. Zhang, J. B. Chang and S. Y. Lu*New J. Chem., 2019, 43, 718-723.

Graphical abstract: Green synthesis of nitrogen and sulfur co-doped carbon dots from Allium fistulosum for cell imaging

20.“Construction of Ce-MOF@COF hybrid nanostructure:Label-free aptasensor for the ultrasensitive detection of oxytetracycline residues in aqueous solution environments”

N. Zhou, Y. S. Ma, B. Hu, L. H. He, S. J. Wang* , Z. H. Zhang* and S. Y. Lu*Biosens. Bioelectron., 2019, 127, 92-100.

Scheme 1

21.“Two dimensional oriented growth of Zn-MOF-on-Zr-MOF architecture:A highly sensitive and selective platform for detecting cancer markers”

N. Zhou, F. Su, C. P. Guo, L. H. He, Z. K. Jia, M. H. Wang, Q. J. Jia, Z. H. Zhang*, S. Y. Lu*Biosens. Bioelectron., 2019, 123, 51-58.

Scheme 1

 

2018

1.“Core-shell heterostructured CuFe@FeFe Prussian blue analogue coupling with silver nanoclusters via a one-step bio-inspired approach: Efficiently non-label aptasensor for detecting bleomycin in various aqueous environments"

N. Zhou, L. Yang, B. Hu, Y. Song, L. He, W. Chen, Z. H. Zhang*, Z. Liu, and S. Y. Lu*Anal. Chem.,2018, 90, 13624-13631

Abstract Image

2.“Carbon Quantum Dots Loaded Ruthenium nanoparticles as an Efficient Electrocatalyst for Hydrogen Production in Alkaline Media”

W. Li, Y. Liu, M. Wu, S. Y. Lu*, B. Yang*, et al, Adv. Mater., 2018, 30, 1800676.

Description unavailable

 




 Co-author

2022

1.“Supramolecular LuminolAIEgen Nanoparticles for Deep-Tissue-Inflammation Imaging”

J. Chen, Q. Huang, Q. Wang, Y. Ding, S. Y. Lu, L. Wang, S. Li* and R. Wang*, ACS Appl. Nano Mater., 2022, https://doi.org/10.1021/acsanm.1c04420.

2.“Photoinduced Single-Crystal to Single-Crystal Transformation via Conformational Change with Turn-On Fluorescence”

H. Liang, T. Jia, X. Yong, J. Yu, Y. Yi, S. Y. Lu, L. Wang* and H. Wang*, Cryst. Growth Des., 2022, https://doi.org/10.1021/acs.cgd.2c00179.

3.“Atom manufacturing of photocatalyst towards solar CO2 reduction”

Z. Wang, R. Shi, S. Y. Lu, K. Zhang*, and T. Zhang*, Rep. Prog. Phys., 2022, 85, 026501.

4.“Rationally Driven Drug Nonradiative Decay via a Label-Free Polyprodrug Strategy to Renew Tumor Cascade Photothermal-Chemotherapy”

W. Zhang, X. Lyu, L. Zhang, W. Wang, Q. Shen, S. Y. Lu, L. Lu, M. Zhan* and X. Hu*, Macromol. Rapid Commun., 2022, 2100918.

5.“Dual interfacial engineering to improve ultraviolet and near-infrared light harvesting for efficient and stable perovskite solar cells”

Z. Shi, D. Zhou*, Y. Wu, G. Pan, W. Xu, N. Wang, S. Liu, R. Sun, L. Liu, X. Zhuang, Y. Zhang, S. Y. Lu, H. Song*, Chem. Eng. J., 2022, 435, 134792.

 

 

2021

1.“Full-spectrum responsive photocatalytic activity via non-noble metal Bi decorated mulberry-like BiVO4

Y. Bi, Y. Yang*, X.-L. Shi, L. Feng, X. Hou, X. Ye, L. Zhang, G. Suo, S. Y. Lu and Z. Chen*, J. Mater. Sci. Technol., 2021, 83, 102-112.

2.“Recent progress in metal-free electrocatalysts toward ambient N2 reduction reaction

T. Xu, B. Ma, J. Liang, L. Yue, Q. Liu, T. Li, H. Zhao, Y. Luo, S. Y. Lu and X. Sun*, Acta. Phys-Chim. Sin., 2021, 37, 2009040-2009043.

3.“Commercial indium-tin oxide glass: a catalyst electrode for efficient N2 reduction at ambient conditions

T. Wang, S. Li, B. He, X. Zhu, Y. Luo*, Q. Liu, T. Li, S. Y. Lu, C. Ye, A. M. Asiri and X. Sun*, Chinese J. Catal., 2021, 42, 1024-1029.

4.“Suppressing Water Dissociation via Control of Intrinsic Oxygen Defects for Awakening Solar H2O‐to‐H2O2 Generation

L. Wang, Y. Lu, N. Han, C. Dong, C. Lin, S. Y. Lu, Y. Min and K. Zhang*, Small, 2021, 2100400.

5.“Synthesis of AIEgen Functionalized Cucurbit [7] uril for Subcellular Bioimaging and Synergistic Photodynamic Therapy and Supramolecular Chemotherapy

J. Chen, S. Li, Z. Wang, Y. Pan, J. Wei, S. Y. Lu, Q. Zhang, L.-H. Wang and R. Wang*, Chem. Sci., 2021.  10.1039/D1SC01139A.

6.“Cu2 Sb decorated Cu nanowire arrays for selective electrocatalytic CO2 to CO conversion

S. Mou, Y. Li, L. Yue, J. Liang, Y. Luo, Q. Liu, T. Li, S. Y. Lu, A. M. Asiri, X. Xiong*, D. Ma* and X. Sun*, Nano Res., 2021,1-6.

7.“Anodic oxidation for the degradation of organic pollutants: anode materials, operating conditions and mechanisms. A mini review

Y. Jiang, H. Zhao, J. Liang, L. Yue, T. Li, Y. Luo, Q. Liu, S. Y. Lu, A. M. Asiri* and Z. Gong*, Electrochem. Commun., 2021, 106912.

8.“Modulating Oxygen Vacancies of TiO2 Nanospheres by Mn-Doping to Boost Electrocatalytic N2 Reduction

H. Chen, T. Wu, X. Li, S. Y. Lu, F. Zhang, Y. Wang, H. Zhao, Q. Liu*, Y. Luo* and A. M. Asiri*, ACS Sustain. Chem. Eng., 2021, 9, 1512-1517.

9.“Anion Vacancy Engineering in Electrocatalytic Water Splitting

Y. Gao, C. Liu, W. Zhou*, S. Y. Lu and B. Zhang*, Chem.Nano Mat., 2021, 7, 102-109.

10.“The transfer law of exergy in the lines (pipes) and exergy loss analysis

P. Xie*, T. Mao, P. Xuan and S. Y. Lu, in IOP Conference Series: Earth and Environmental Science, IOP Publishing, 2021, 012197.

11.“Photoacoustic Cavitation‐Ignited Reactive Oxygen Species to Amplify Peroxynitrite Burst by Photosensitization‐Free Polymeric Nanocapsules

Z. Wang, M. Zhan, W. Li, C. Chu, D. Xing*, S. Y. Lu and X. Hu*, Angew. Chem. Int. Edit., 2021, 60, 4720-4731.

12.“Tumor Microenvironment‐“AND” Near‐Infrared Light‐Activated Coordination Polymer Nanoprodrug for On‐Demand CO‐Sensitized Synergistic Cancer Therapy”

P. Sun, L. Jia, J. Hai, S. Y. Lu, F. Chen, K. Liang, S. Sun, H. Liu, X. Fu, Y. Zhu* and B. Wang*, Adv. Healthc. Mater., 2021, 10, 2001728.

13.Recent advances of perovskite oxides as electrode materials for supercapacitor

Y. Cao, J. Liang, X. Li, L. Yue, Q. Liu, S. Y. Lu, A. M. Asiri, J. Hu*, Y. Luo* and X. Sun*, Chem. Commun., 2021,57, 2343-2355.

14.A-site perovskite oxides: an emerging functional material for electrocatalysis and photocatalysis

X. Li, H. Zhao, J. Liang, Y. Luo, G. Chen, X. Shi, S. Y. Lu, S. Gao*, J. Hu* and Q. Liu*, J. Mater. Chem. A, 2021, 9, 6650-6670.

15.Electrocatalytic hydrogen peroxide production in acidic media enabled by NiS2 nanosheets

J. Liang, Y. Wang, Q. Liu, Y. Luo, T. Li, H. Zhao, S. Y. Lu, F. Zhang, A. M. Asiri*and F. Liu*, J. Mater. Chem. A, 2021, 9, 6117-6122.

16.Magnetron sputtering enabled sustainable synthesis of nanomaterials for energy electrocatalysis

J. Liang, Q. Liu, T. S. Li, Y. Luo, S. Y. Lu, X. Shi, F. Zhang, A. M. Asiri and X. Sun*, Green Chem., 2021,23, 2834-2867.

17.“A magnetron sputtered Mo3 Si thin film: an efficient electrocatalyst for N2 reduction under ambient conditions”

T. Wang, Q. Liu, T. Li, S. Y. Lu, G. Chen, X. Shi, A. M. Asiri, Y. Luo*, D. Ma* and X. Sun*, J. Mater. Chem. A, 2021,9, 884-888.

18.“Amorphous nanomaterials in electrocatalytic water splitting”

C. Guo, Y. Shi, S. Y. Lu, Y. Yu*, B. Zhang*, Chinese J. Catal., 2021, 42, 1287-1296.

19.“NIR II Light-Response Au Nanoframes: Amplification of a Pressureand Temperature-Sensing Strategy for Portable Detection and Photothermal Therapy of Cancer Cells”

S. Liu, S. Y. Lu, S. Sun, J. Hai*, G. Meng, Baodui Wang*, Anal. Chem., 2021, 93, 14307-14316.

20.“Photoinduced Reaction Pathway Change for Boosting CO2 Hydrogenation over a MnO-Co Catalyst”

B. Zhao, M. Sun, F. Chen, W. Wang, S. Y. Lu, Bin Zhang*, ACS Catal., 2021, 11, 10316-10323.

 

2020

1. “Cocktail polyprodrug nanoparticles concurrently release cisplatin and peroxynitrite-generating nitric oxide in cisplatin-resistant cancers

C. Chu, X. Lyu, Z. Wang, H. Jin, S. Y. Lu, D. Xing* and X. Hu*, Chem. Eng. J., 2020, 402, 126125.

2. “Electrosynthesis of Syngas via the Co-Reduction of CO2 and H2O

S. Y. Lu, Y. Shi, N. Meng, S. Y. Lu, Y. Yu and B. Zhang*, Cell Rep. Phys. Sci., 2020, 100237.

3. “Porous LaFeO3 nanofiber with oxygen vacancies as an efficient electrocatalyst for N2 conversion to NH3 under ambient conditions

C. Li, D. Ma, S. Mou, Y. Luo, B. Ma, S. Y. Lu, G. Cui, Q. Li*, Q. Liu* and X. Sun*, J. Colloid Interf. Sci., 2020, 50, 402-408.

4. “Electrocatalytic N2 reduction to NH3 with high Faradaic efficiency enabled by vanadium phosphide nanoparticle on V foil

P. Wei, Q. Geng, A. I. Channa, X. Tong, Y. Luo, S. Y. Lu, G. Chen, S. Gao, Z. Wang* and X. Sun*, Nano Res., 2020, 13, 2967-2972.

5. “Bioorthogonal supramolecular cell-conjugation for targeted hitchhiking drug delivery

C. Gao, Q. Cheng, J. Wei, C. Sun, S. Y. Lu, C. H. Kwong, S. M. Lee, Z. Zhong* and R. Wang*, Mater. Today, 2020, 40, 9-17.

6. “Selective Transfer Semihydrogenation of Alkynes with H2O (D2O) as the H (D) Source over a Pd‐P Cathode

Y. Wu, C. Liu, C. Wang, S. Y. Lu and B. Zhang*, Angew. Chem. Int. Edit., 2020, 132, 21356-21361.

7. “Confining Carbon Dots in Porous Wood: The Singlet Oxygen Enhancement Strategy for Photothermal Signal-Amplified Detection of Mn2+

J. Su, S. Y. Lu, J. Hai, K. Liang, T. Li, S. Sun, F. Chen*, Z. Yang* and B. Wang*, ACS Sustain. Chem. Eng., 2020, 8, 17687-17696.

8. “Rational collaborative ablation of bacterial biofilms ignited by physical cavitation and concurrent deep antibiotic release

B. Cao, X. Lyu, C. Wang, S. Y. Lu, D. Xing* and X. Hu*, Biomaterials, 2020, 262, 120341.

9. “Unveiling the Promotion of Surface‐Adsorbed Chalcogenate on the Electrocatalytic Oxygen Evolution Reaction

Y. Shi, W. Du, W. Zhou, C. Wang, S. Y. Lu, S. Y. Lu and B. Zhang*, Angew. Chem. Int. Edit., 2020, 132, 22656-22660.

10. “Greatly Enhanced Electrocatalytic N2 Reduction over V2O3/C by P Doping

X. Cheng, J. Wang, W. Xiong, T. Wang, T. Wu, S. Y. Lu, G. Chen, S. Gao, X. Shi and Z. Jiang, Chem. Nano. Mat., 2020, 6, 1315-1319.

11. “Iron-group electrocatalysts for ambient nitrogen reduction reaction in aqueous media

B. Ma, H. Zhao, T. Li, Q. Liu, Y. Luo, C. Li, S. Y. Lu, A. M. Asiri, D. Ma* and X. Sun*, Nano Res., 2020, 1-15.

12. “Ultralong and efficient phosphorescence from silica confined carbon nanodots in aqueous solution

Y. Liang, S. Gou, K. Liu*, W. Wu, C. Guo, S. Y. Lu, J. Zang, X. Wu, Q. Lou* and L. Dong*, Nano Today, 2020, 34, 100900.

13. “Bi0. 5Sb1. 5Te3/PEDOT: PSS-based flexible thermoelectric film and device

Y. Wang, M. Hong, W.-D. Liu, X. Shi, S. Xu, Q. Sun, H. Gao, S. Y. Lu, J. Zou and Z.-G. Chen*, Chem. Eng. J., 2020, 397, 125360.

14. “Thermally-assisted photocatalytic CO2 reduction to fuels

M. Sun, B. Zhao, F. Chen, C. Liu*, S. Y. Lu, Y. Yu* and B. Zhang*, Chem. Eng. J., 2020, 127280.

15. “Rational design of carbon materials as anodes for potassium-ion batteries”

Y. Wu, H. Zhao, Z. Wu, L. Yue, J. Liang, Q. Liu, Y. Luo, S. Gao, S. Y. Lu, and G. Chen*, Energy Storage Mater., 2020,10,015.

16. “Dual-Responsive Polyprodrug Nanoparticles with Cascade-Enhanced Magnetic Resonance Signals for Deep-Penetration Drug Release in Tumor Therapy

Q. Hao, Z. Wang, W. Zhao, L. Wen, W. Wang, S. Y. Lu, D. Xing*, M. Zhan* and X. Hu*, ACS Appl. Mater. Inter., 2020, 12, 49489-49501.

17. “Aqueous self-assembly of block copolymers to form manganese oxide-based polymeric vesicles for tumor microenvironment-activated drug delivery

Y. Miao, Y. Qiu, M. Zhang, K. Yan, P. Zhang, S. Y. Lu, Z. Liu*, X. Shi* and X. Zhao*, Nano-Micro Letters, 2020, 12, 1-15.

18. “A synergy of strain loading and laser radiation in determining the high-performing electrical transports in the single Cu-doped SnSe microbelt

Y. Zheng, X. Shi, H. Yuan, S. Y. Lu, X. Qu, W. Liu, L. Wang, K. Zheng*, J. Zou and Z.-G. Chen*, Mater. Today Phys., 2020, 13, 100198.

19. “Identifying the Origin of Ti3+ Activity toward Enhanced Electrocatalytic N2 Reduction over TiO2 Nanoparticles Modulated by Mixed‐Valent Copper

T. Wu, H. Zhao, X. Zhu, Z. Xing, Q. Liu, T. Liu, S. Gao, S. Y. Lu, G. Chen* and A. M. Asiri*, Adv. Materi., 2020, 32, 2000299.

20. “CuO@CoFe Layered Double Hydroxide Core–Shell Heterostructure as an Efficient Water Oxidation Electrocatalyst under Mild Alkaline Conditions

Y. Wang, T. Wang, R. Zhang, Q. Liu, Y. Luo, G. Cui, S. Y. Lu, J. Wang, Y. Ma* and X. Sun*, Inorg. Chem., 2020, 59, 9491-9495.

21. “Recent advances in non-noble metal electrocatalysts for nitrate reduction

X. Zhang, Y. Wang, C. Liu*, Y. Yu*, S. Y. Lu and B. Zhang*, Chem. Eng. J., 2020, 126269.

22. “SrTiO3-based thermoelectrics: Progress and challenges

X. Shi, H. Wu, Q. Liu*, W. Zhou*, S. Y. Lu, Z. Shao, M. Dargusch and Z. Chen*, Nano Energy, 2020, 105195.

23. “Biofilm-Responsive Polymeric Nanoparticles with Self-Adaptive Deep Penetration for In Vivo Photothermal Treatment of Implant Infection

C. Wang, W. Zhao, B. Cao, Z. Wang, Q. Zhou, S. Y. Lu, L. Lu, M. Zhan* and X. Hu*, Chem. Mater., 2020, 32, 7725-7738.

24. “Graphene oxide and adiponectin-functionalized sulfonated poly (etheretherketone) with effective osteogenicity and remotely repeatable photodisinfection

Y. Deng, X. Gao, X.-L. Shi, S. Y. Lu, W. Yang*, C. Duan* and Z.-G. Chen*, Chem. Mater., 2020, 32, 2180-2193.

25. “DyF3: An Efficient Electrocatalyst for N2 Fixation to NH3 under Ambient Conditions

Y. Li, T. Li*, X. Zhu, A. A. Alshehri, K. A. Alzahrani, S. Y. Lu and X. Sun*, Chem–Asian J., 2020, 15, 487-489.

26. “Carbon Dots–Implanted Graphitic Carbon Nitride Nanosheets for Photocatalysis: Simultaneously Manipulating Carrier Transport in Inter‐and Intralayers

M. Han, S. Y. Lu, F. Qi, S. Zhu, H. Sun* and B. Yang*, Sol. RRL, 2020, 4, 1900517.

27. “Co3 (hexahydroxytriphenylene)2: A conductive metal—organic framework for ambient electrocatalytic N2 reduction to NH3

W. Xiong, X. Cheng, T. Wang, Y. Luo, J. Feng, S. Y. Lu, A. M. Asiri, W. Li*, Z. Jiang* and X. Sun*, Nano Res., 2020, 13, 1008-1012.

28. “Selective Decoating-Induced Activation of Supramolecularly Coated Toxic Nanoparticles for Multiple Applications

C. Gao, C. H. Kwong, C. Sun, Z. Li, S. Y. Lu, Y. Yang*, S. M. Lee* and R. Wang*, ACS Appl. Mater. Interfaces, 2020, 12, 25604-25615.

29. “Oxidation‐etching induced morphology regulation of Cu catalysts for high‐performance electrochemical N2 reduction

X. Ji, T. Wang, Q. Liu, Y. Luo, S. Y. Lu, G. Chen, S. Gao, A. M. Asiri and X. Sun*, EcoMat, 2020, 2, e12026.

30. “A nitrogen fixation strategy to synthesize NO via the thermally assisted photocatalytic conversion of air

Y. Yu, C. Wang, Y. Yu*, Y. Huang, C. Liu, S. Y. Lu and B. Zhang*, J. Mater. Chem. A, 2020, 8, 19623-19630.

31. “Iron-based phosphides as electrocatalysts for the hydrogen evolution reaction: recent advances and future prospects

S. Xu, H. Zhao, T. Li, J. Liang, S. Y. Lu, G. Chen, S. Gao, A. M. Asiri, Q. Wu and X. Sun*, J. Mater. Chem. A, 2020, 8, 19729-19745.

32. “Magnetron sputtering enabled synthesis of nanostructured materials for electrochemical energy storage

F. Wang, H. Zhao, J. Liang, T. Li, Y. Luo, S. Y. Lu, X. Shi, B. Zheng, J. Du and X. Sun*, J. Mater. Chem. A, 2020, 8, 20260-20285.

33. “Electrochemical non-enzymatic glucose sensors: recent progress and perspectives

M. Wei, Y. Qiao, H. Zhao, J. Liang, T. S. Li, Y. Luo, S. Y. Lu, X. Shi, W. Lu and X. Sun*, Chem. Commun., 2020, 56, 14553-14569.

34. “Enhanced electrocatalytic N2-to-NH3 fixation by ZrS2 nanofibers with a sulfur vacancy

T. Xu, D. Ma, T. Li, L. Yue, Y. Luo, S. Y. Lu, X. Shi, A. M. Asiri, C. Yang* and X. Sun*, Chem. Commun., 2020, 56, 14031-14034.

35. “Noble-metal-free electrocatalysts toward H2O2 production

K. Dong, Y. Lei, H. Zhao, J. Liang, P. Ding, Q. Liu, Z. Xu, S. Y. Lu, Q. Li* and X. Sun*, J. Mater. Chem. A, 2020, 8, 23123-23141.

36. “In vivo photothermal inhibition of methicillin-resistant Staphylococcus aureus infection by in situ templated formulation of pathogen-targeting phototheranostics

X. Guo, B. Cao, C. Wang, S. Y. Lu and X. Hu*, Nanoscale, 2020, 12, 7651-7659.

37. “Enabling electrochemical conversion of N2 to NH3 under ambient conditions by a CoP3 nanoneedle array

J. Gao, X. Lv, F. Wang, Y. Luo, S. Y. Lu, G. Chen, S. Gao, B. Zhong, X. Guo and X. Sun*, J. Mater. Chem. A, 2020, 8, 17956-17959.

38. “Spatiotemporally controlled O2 and singlet oxygen self-sufficient nanophotosensitizers enable the in vivo high-yield synthesis of drugs and efficient hypoxic tumor therapy

S. He, S. Y. Lu, S. Liu, T. Li, J. Li, S. Sun, M. Liu, K. Liang, X. Fu* and F. Chen*, Chem. Sci., 2020, 11, 8817-8827.

39.“Cu3P nanoparticle-reduced graphene oxide hybrid: an efficient electrocatalyst to realize N2-to-NH3 conversion under ambient conditions

R. Zhao, Q. Geng, L. Chang, P. Wei, Y. Luo*, X. Shi, A. M. Asiri, S. Y. Lu, Z. Wang and X. Sun*, Chem. Commun., 2020, 56, 9328-9331.

40. “Recent advances in electrospun nanofibers for supercapacitors

J. Liang, H. Zhao, L. Yue, G. Fan, T. Li, S. Y. Lu, G. Chen, S. Gao, A. M. Asiri and X. Sun*, J. Mater. Chem. A, 2020, 8, 16747-16789.

41. “Sn dendrites for electrocatalytic N2 reduction to NH3 under ambient conditions

X. Lv, F. Wang, J. Du, Q. Liu, Y. Luo, S. Y. Lu, G. Chen, S. Gao, B. Zheng* and X. Sun*, Sustain. Energ. Fuels, 2020, 4, 4469-4472.

42. “A cobalt-phosphorus nanoparticle decorated N-doped carbon nanosheet array for efficient and durable hydrogen evolution at alkaline pH

X. Li, R. Zhang, Y. Luo, Q. Liu, S. Y. Lu, G. Chen, S. Gao, S. Chen and X. Sun*, Sustain. Energ. Fuels, 2020, 4, 3884-3887.

43.“Recent advances in electrospun one-dimensional carbon nanofiber structures/heterostructures as anode materials for sodium ion batteries

L. Yue, H. Zhao, Z. Wu, J. Liang, S. Y. Lu, G. Chen, S. Gao, B. Zhong, X. Guo and X. Sun*, J. Mater. Chem. A, 2020, 8, 11493-11510.

44. “High-performance non-enzymatic glucose detection: using a conductive Ni-MOF as an electrocatalyst

Y. Qiao, Q. Liu, S. Y. Lu, G. Chen, S. Gao, W. Lu* and X. Sun*, J. Mater. Chem. B, 2020, 8, 5411-5415.

45. “Ambient electrochemical NH3 synthesis from N2 and water enabled by ZrO2 nanoparticles

T. Xu, D. Ma, C. Li, Q. Liu, S. Y. Lu, A. M. Asiri, C. Yang* and X. Sun*, Chem. Commun., 2020, 56, 3673-3676.

46. “Bi nanodendrites for efficient electrocatalytic N2 fixation to NH3 under ambient conditions

F. Wang, X. Lv, X. Zhu, J. Du, S. Y. Lu, A. A. Alshehri, K. A. Alzahrani, B. Zheng and X. Sun*, Chem. Commun., 2020, 56, 2107-2110.

47. “Hierarchical CuO@ZnCo LDH heterostructured nanowire arrays toward enhanced water oxidation electrocatalysis

T. Wang, X. Zhang, X. Zhu, Q. Liu, S. Y. Lu, A. M. Asiri, Y. Luo* and X. Sun*, Nanoscale, 2020, 12, 5359-5362.

48. “Solution-phase vertical growth of aligned NiCo2O4 nanosheet arrays on Au nanosheets with weakened oxygen–hydrogen bonds for photocatalytic oxygen evolution

S. He, J. Chai, S. Y. Lu, X. Mu, R. Liu, Q. Wang, F. Chen, Y. Li, J. Wang and B. Wang*, Nanoscale, 2020, 12, 6195-6203.

49.“Aqueous stable Pd nanoparticles/covalent organic framework nanocomposite: an efficient nanoenzyme for colorimetric detection and multicolor imaging of cancer cells

P. Sun, J. Hai, S. Sun, S. Y. Lu, S. Liu, H. Liu, F. Chen* and B. Wang*, Nanoscale, 2020, 12, 825-831.

 

2019

1."Carbon Dots-Implanted Graphitic Carbon Nitride Nanosheets for Photocatalysis: Simultaneously Manipulating Carrier Transport in Inter-and Intra-Layers"

M. Han, S. Y. Lu, S. Zhu, H. Sun*, B. Yang*, Sol. RRL, 2020, 4, 1900517.

2. "Smart Responsive Luminescent Aptamer-Functionalized Covalent Organic Framework Hydrogel for High-Resolution Visualization and Security Protection of Latent Fingerprints"

J. Hai, H. Wang, P. Sun, T. Li, S. Y. Lu, Y. Zhao, B. Wang*, ACS Appl. Mater. Interfaces, 2019, 44664-44672.

3. "Pressure-induced structural transition and band gap evolution of double perovskite Cs2AgBiBr6 nanocrystals"

R. J. Fu, Y. P. Chen, X. Yong, Z. W. Ma, L. R. Wang, P. F. Lv, S. Y. Lu, G. J. Xiao*, B. Zou, Nanoscale, 2019, 17004-17009.

4. "Efficient carbon-based catalyst derived from natural cattail fiber for hydrogen evolution reaction"

G. Han, M. Hu, Y. Liu*, J.Gao, L. Han, S. Y. Lu, H. Cao, X. Wu*, B. Li, J. Solid. State. Chem., 2019, 274, 207-214

5. "Morphological and Interfacial Engineering of Cobalt-Based Electrocatalysts by Carbon Dots for Enhanced Water Splitting"

T. Feng, Q. Zeng, S. Y. Lu, M. Yang, S. Tao, Y. Chen, Y. Zhao, B. Yang*, ACS Sustainable Chem. Eng., 2019, 7, 7047-7057

6. "Oxygen vacancy engineered SrTiO3 nanofibers for enhanced photocatalytic H2 production"

Chuan-Qi Liab, Sha-Sha Yi*, De-liang Chen, Yan Liu, Ya-Jie Li, S. Y. Lu, Xin-Zheng Yue*, Zhong-Yi Liu*, J. Mater. Chem. A, 2019, 7, 17974-17980

7. "Palladium Coordination Polymers Nanosheets: New strategy for Sensitive Photothermal Detection of H2S"

S. He, J. Hai, S. H. Sun, S. Y. Lu, B. Wang*, Anal. Chem., 2019, 91, 10823-10829.

8. "BODIPY@carbon dot nanocomposites for enhanced photodynamic activity"

Y. Su, S. Y. Lu, P. Gao,M. Zheng, Z. Xie*, Mater. Chem. Front, 2019, 3, 1747-1753. 

9. "Retrosynthesis of Tunable Fluorescent Carbon Dots for Precise Long‐Term Mitochondrial Tracking"

X. Geng, Y. Sun, Z. Li*, R. Yang, Y. Zhang, Y. Guo, J. Xu, F. Li, Y. Wang*, S. Y. Lu, L. Qu, Small, 2019, 1901517.

10.Graphitic Nitrogen and High-Crystalline Triggered Strong Photoluminescence and Room-Temperature Ferromagnetism in Carbonized Polymer Dots“”

S. Y. Lu, L, Sui, M. Wu, S. Zhu, X. Yong, Bai Yang*, Adv. Sci., 2019, 6, 1801192.

 

 

2018

1. "From dimers to sheets: carbon network evolution in superconducting YC2 under pressure"

X. L. Feng, S. Y. Lu, Chris J. Pickard, H. Y. Liu,* Simon A. T. Redfern,* and Y. M. Ma*, Commun. Chem., 2018, 1, 85.  (Nature family, 共同一作)

2. "Pressure-Induced Emission of Cesium Lead Halide Perovskite Nanocrystals"

Z. W. Ma,  Z. Liu, S. Y. Lu, L. R. Wang, X. L. Feng, D. W. Yang, K. Wang, L. J. Zhang, Simon Redfern, G. J. Xiao,* B. Zou, Nat. Commun., 2018, 9, 4506.

3. "Graphitic Nitrogen and High-crystalline Triggered Strong Photoluminescence and Room-temperature Ferromagnetism in Carbonized Polymer Dots"

S. Y. Lu, L. Z. Sui, M. Wu, S. J. Zhu, X. Yong, B. Yang*, Adv. Sci., 2019, 6, 1801192.

4. "Design of Metal-Free Polymer Carbon Dots: a New Class of Room-Temperature Phosphorescent Materials"

S. Tao, S. Y. Lu, Y. Geng, S. Zhu, S. A. Redfern, Y. Song, T. Feng, W. Xu, B. Yang, Angew. Chem. Int. Ed., 2018, 57, 2393-2398. (共同一作,Hot paper, IF=12.102)

5. "A combined experimental and theoretical investigation of donor and acceptor interface in efficient aqueous-processed polymer/nanocrystal hybrid solar cells"

S. Y. Lu, W. Mi, G. Jin, Q. Zeng, X. Feng, T. Feng, H. Liu, S. Meng, S. A. T Redfern, B. Yang, Sci. China Chem., 2018, 61,437-443.

6. "Polymer-Passivated Inorganic Cesium Lead Mixed-Halide Perovskites for Stable and Efficient Solar Cells with High Open-Circuit Voltage over 1.3 V"

Q. Zeng, X. Zhang, X. Feng, S. Y. Lu, Z. Chen, X. Yong, S. A. T. Redfern, H. Wei, H. Wang, H. Shen, W. Zhang, W. Zheng, H. Zhang, John S. Tse, B. Yang. Adv. Mater., 2018, 1705393.

7. "Recent progress on the photocatalysis of carbon dots: Classification, mechanism and applications"

M.Han, S. Zhu, S. Y. Lu, Y. Song, T. Feng, S. Tao, J. Liu, B. Yang. Nano Today, 2018, 19, 201-218.

8. "Color-Tunable Carbon Dots Possessing Solid-State Emission for Full-Color Light-Emitting Diodes Applications"

T. Feng, Q. Zeng, S. Y. Lu, X. Yan, J. Liu, S. Tao, M. Yang, B. Yang. ACS Photonics, 2018, 5, 502-510.

9. "Colloidal Synthesis of Ultrathin Monoclinic BiVO4 Nanosheets for Z-Scheme Overall Water Splitting under Visible Light"

C. Dong, S. Y. Lu, S. Yao, R. Ge, Z. Wang, Z. Wang, P. An, Y. Liu* , B. Yang and H. Zhang. ACS Catal., 2018, 8, 8649-8658.

 

2017 (工作之后)


4. "One-step hydrothermal synthesis of photoluminescent carbon nanodots with selective antibacterial activity against Porphyromonas gingivalis"

J.Liu, S. Y. Lu, Q. Tang, K. Zhang, W. Yu, H. Sun, Bai Yang. Nanoscale, 2017, 9, 7135-7142.

5. "Supramolecular Cross-Link-Regulated Emission and Related Applications in Polymer Carbon Dots"

T.Feng, S. Zhu, Q. Zeng, S. Y. Lu, S. Tao, J. Liu, B. Yang, ACS Appl. Mater. Interfaces, 2017,15, 12262-12277.