(1.)Basic Information

 

CURRICULUM VITA     

     Daocheng Wu, a native of Zhenjiang City, China, was brought into this world in the year 1962. He embarked on his academic journey by attaining

an M.S. degree in Applied Chemistry from the Changsha Institute of Technology. In the year 2003, he further elevated his scholarly pursuits by        obtaining a Ph.D. degree in the field of Biomedical Engineering from Xi’an Jiaotong University, situated in the People's Republic of China. Between  the years 1999 and 2004, Daocheng Wu served as an associate professor within the esteemed Department of Pharmacy at the virtuous Fourth Military Medical University, located in the ancient city of Xi’an, P. R. China. In 2005, he continued to ascend the ladder of academic excellence by joining the Xi’an Jiaotong University, where he carries the distinguished title of professor till this very day.His current line of research is firmly ensconced within the domains of biomaterials and bionanotechnology, delving into captivating subjects such as drug delivery systems, nanoparticles for diagnosis and therapy, as well as functional nanoparticles and their applications in the awe-inspiring realm of biomedicine. Over the span of the past decade, his prodigious efforts have culminated in the publication of over 120 papers in numerous esteemed peer-reviewed journals. Noteworthy among these publications are more than 70 research papers showcased in the esteemed journal Advanced Functional Materials (IF 19.7), as well as Biomaterials (IF 15.3), Journal of Materials Chemistry A (IF 10.4), ACS nano (IF 17.3), Autophagy (IF 11.3), ACS Applied Materials & Interfaces (IF 8.1), and other distinguished SCI journals. The collective magnitude of his citations has surpassed a staggering 17000, with an impressive H factor of 33. Among these scholarly contributions, more than 80 articles bear the distinction of being authored by Daocheng Wu as the lead and corresponding author. Furthermore, his scholarly endeavors have resulted in the publication of over 100 articles in core journals within the boundaries of China. The nurturing of academic intellect is one of Daocheng Wu's inherent traits, as he has graciously guided the scholarly paths of over 30 students pursuing doctoral and master's degrees.

Research fields:

1.Antitumor effects of gossypol and its derivatives

The separation and purification of gossypol and its derivatives have garnered considerable attention in scientific exploration. Furthermore, extensive investigations have been conducted on the anticancer properties of these derivatives. Pioneering studies have revealed that gossypol derivatives possess the intrinsic ability to induce autophagy in tumor cells, elucidating a novel mechanism for their antitumor effects. Additionally, the synergistic potential between gossypol derivatives and adriamycin has been unveiled, leading to the development of a sophisticated mulberry-like double-drug targeting self-assembly. This ingenious nano-drug carrier system not only requires a mere 20% dosage of the drug to achieve a remarkable 150% enhancement in therapeutic efficacy compared to the original formulation, but also significantly mitigates toxicity and deleterious side effects. In addition, synergistic effects between gossypol derivatives and other drugs have been observed, magnifying their potential in cancer treatment. The profound impact of this research is further evidenced by the publication of over 20 articles in prestigious international journals such as Adv Funct Mater, Biomaterials, Cancer Biology and Treatment Cancer, J Mater Chem B, and J Control Release. These publications serve as a testament to the exceptional quality and significance of the findings, augmenting the scientific community's understanding of the promising role of gossypol derivatives in the battle against cancer.

2. Ultrasound Drug Controlled Release System and Equipments

A gelatinized nanogel with ionization properties was ingeniously devised and fabricated, featuring an intelligent drug release mechanism that can be effectively triggered by ultrasound. The gelatinized nanogel exhibited remarkable responsiveness, with a swift response time of 1-2 minutes and a prompt recovery time of 3-4 minutes. Upon the reversible activation by ultrasound, the average particle size of the gelatinized nanogel was magnified to a range of 2-3 microns, thereby substantially augmenting the drug-carrying capacity of the system.

To confer a heightened photothermal conversion efficiency, a sophisticated system combining polydopamine and the near infrared dye IR-780 was precisely engineered, affording perfluorocarbon nanodroplets with exceptional sensitivity towards photothermal phase transition. When subjected to near infrared laser irradiation, the temperature of the system soared significantly, surpassing 60°C, thus enabling effective hyperthermia treatment of tumor cells and tissues. Furthermore, the perfluorocarbon nanodroplets underwent a conspicuous phase transition from a liquid state to a gaseous state. This transformation produced perfluorocarbon gas that not only intensified the ultrasound contrast effect, facilitating the visualization of the tumor site during photothermal therapy, but also provided an ultrasound signal intensity that accurately reflected the progression and extent of hyperthermia. Remarkably, this study employed perfluorocarbon nanodroplets for in vivo animal treatment and real-time monitoring of treatment efficacy.

The impact of this research has been extensively recognized, contributing to the publication of over ten scientific papers in highly esteemed international journals such as ACS Applied Materials & Interfaces, Current Medicinal Chemistry, Nanoscale, J Mater Chem B, C, among others. Furthermore, numerous invention patents have been granted, underscoring the significance and potential of this groundbreaking work.

3 Nanothermometer for biomedical applications
A new method for the formation of fluorescent nanothermometer by encapsulating water-soluble rhodamine F-127 fluorescent dye and Rhodamine B (reference) in melamine nanoparticles at the same time was studied. The temperature sensitivity of the fluorescent nanothermometer is high (7.6%C-1). It can measure temperature in a wide temperature range from -20 C to 150 C. It has been successfully applied to microwave heating of cells measurement. The fluorescence resonance energy transfer (FRET) of random curl size Rg of single stranded DNA molecule was used to measure the microenvironment temperature. A colorimetric fluorescent nanometric thermometer based on single stranded DNA has been developed. It has high sensitivity (7.04% degree C-1) and wide temperature range (0-100 degrees C). It has a stable thermo sensitive property and successfully applied to the quantitative measurement of gel and intracellular temperature. More than 10 papers have been published in ACS Applied Materials & Interfaces, J Mater Chem B, C and other well-known international journals.

 

Work Address

School of Life Science and Technology, Xi’an Jiaotong University, P.R.China. West Changle Road, Xi’an 710049.

28

Tel: 86-29-82663941    Fax: 86-29-82663941 

e-mail: wudaocheng@mail.xjtu.edu.cn

Home Address:    5 Jinhua Road, Xi’an  710048, Tel: 86-29-82310823

 

Research Grants:

1. Bifunctional drug delivery micro-system with the characteristics of ultrasound- triggered release and ultrasound tracking

(National Natural Science Foundation of China, 30570494)

Role: Principal Investigator

  

2.Systemic pre-clinic research of adriamycin liposomes

(Major Program of science and technology of Guizhou Province of China, 97003)

Role: Principal Investigator

 

3. The preparation and characteristics of Intelligence release nanogel

(National Natural Science Foundation of China, 30170171)

Role: Principal Investigator

 

4. Nanosized particles for medical diagnosis and therapy

( National Medical Science and Technique Foundation during the 10th Five-Year Plan Period, No. 2001AA-218031).

Role: Principal Investigator

 

5.Novel nanosized drug delivery system and their industrialization

(National High Technology Research and Development Program of China, 2001BA310A7 -7) (863 Program ).

Role: Principal Investigator

 

6. The preparation and anti-tumor mechanism of (-) gossypol micro-system with the characteristics of ultrasonic controlled release and tumor targeting

( National Natural Science Foundation of China, 30772658).

Role: Principal Investigator

 

7. Bcl-2/Mcl-1 protein inhibitor with the characteristics of ultrasonic controlled release and tumor targeting.

(Projects of International Cooperation and Exchanges NSFC, 30710403089)

Role: Principal Investigator

 

8. Study on the Chiral microemulsion and related hydrogel and their characteristics of lipase catalyse.

(Key Laboratory Project on Key Laboratory of Colloid Interface Chemistry, Ministry of Education)

Role: Principal Investigator

 

9.Multi-functional core-shell immunomagnetic bead for the research of cancer stem cells.

( National Natural Science Foundation of China, 30970712).

Role: Principal Investigator

10 . Extract process of Gossypol acetic acid from cottonseed soapstock and  (-) Gossypol   separation  
(Shaanxi province science and technology innovation project , 2011KTCL03-07)

 Role: Principal Investigator

 

11.Dual- targeting of Bcl-2 proteins inhibitor delivery system to the tumor cells and their mitochondrions ( National Natural Science Foundation of China,  81271686).

Role: Principal Investigator

 

12Gossypol/MicroDNAs antitumor system with the characteristics of tumorcells and their nucleus dual-targetingOverseas, Hong Kong & Macao Scholars Collaborated Researching Fund of National Natural Science Foundation of China.81228011.

Role: Co-Principal Investigator

 

 

13.Multi-functional mulberry like AQ4N∕thiotepa nanocarrier with the characteristics of hypoxia phosphorescence indication for drug release,hyaluronic acid tumor targeting, AQ4N hypoxia-selective reduction and combined therapy

Natural Science Foundation of China,  81471771).

Role: Principal Investigator

 

14.Tumor targeting IR780-loaded Gossypol-Fe (Ⅲ)-EGCG infinite coordination polymer nanoparticles and their tumor photothermal /synergistic chemotherapy

Natural Science Foundation of China,  81871476

Role: Principal Investigator

 

Publications:

Over 120 papers have been published in: Adv Funct  Mater, ACS nano, Biomaterials, Small, Clinic Chem, J Phy Chem, J Pharm Pharmaceut Sci ,  J Mater Chem, Nanoscale,  IEEE Transactions on NanoBioscienc, Sensors & Actuators:B.Chemical,  American Institute of Chemical Engineers Journal, Chem. Commun, Cancer  Immunol Immunother, J Biotechnoland so on.  

Some of them are shown as following:

 1. Daocheng Wu*, Mingxi WanYongfeng Du   Enhancing the Antitumor Effect of Adriamycin Nanoparticle Lipiodol Emulsion by Pretreating Liver Cancer with Diethyldithiocarbamate.    International  Journal of  Nonlinear and  Numerical simulation  2002,3(3-4):181-184 .

 2.Wu Daocheng*, Wan MingxiMo Jian ,Wu Hong. Enhancing the Antitumor Effect of Adriamycin nanoparticle by pretreating liver Cancer with Diethyldithiocarbamate.   J  Chin Pharm Sci 2002, 11(3):24-29

 3.  H. WU, Z. X. ZHANG, H. P. ZHAO, D. C. Wu, B. L. Wuz  Preparation of sodium fluoride-loaded gelatin microspheres, characterization and cariostatic studies. Journal of Microencapsulation 2004,21(8): 889-903.

 4.Guo-Ping Wang, Er-Qun Song,a Hai-Yan Xie,Zhi-Ling Zhang, Zhi-Quan Tian, Chao Zuo,Dai-Wen Pang, Dao-Cheng Wu and Yun-Bo Shi. Biofunctionalization of fluorescent- magnetic-bifunctional nanospheres and their applications. Chem. Commun. 2005, 4276–4278

 5. Ge W, Sui YF, Wu DC, Y.J. Sun Guang-Sheng Chen,Zeng-Shan Li ,Shao-Yan Si,Pei-Zhen Hu ,Yang  Huang,Xiu-Min Zhang.MAGE-1/Heat shock protein 70/MAGE-3 fusion protein vaccine innanoemulsion enhances cellular and humoral immune responses to MAGE-1 or MAGE-3 in vivo. Cancer  Immunol Immunother2005,557):841-849 

 6.Shi R, Hong L, Wu D, Ning X, Chen Y, Lin T, Fan D, Wu K.Enhanced Immune Response to GastricCancer Specific Antigen Peptide by Co-encapsulation with CpOligodeoxynucleotides  Nanoemulsion .  Cancer biological and therapy 2005, 4(2): 218-224 

 7. Hong Wu, Zhenxi Zhang, Daocheng Wu , Hongping Zhao, Kaitao Yu, Zhenqing Hou. Preparation and   drug release characteristics of Pingyangmicin-loaded dextran cross-linked gelatin microspheresfor embolization therapy. Journal of Biomedical Materials Research part B: Applied Biomaterials 2006,78 (1):56-62.

 8. Lan J, Huang X, Hu M, Li Y, Qu Y, Gao P,Wu DC . High efficient degradation of dyes with lignin peroxidase coupled with glucose oxidase. J Biotechnol. 2006,123(4):483-90

 9.Er-Qun Song, Guo-Ping Wang, Dao-Cheng Wu, Dai-Wen Pang. Visual Recognition and Efficient  Isolation of Apoptotic Cells with Fluorescent- Magnetic- Biotargeting Multifunctional Nanospheres. Clin. Chem. 2007,53(12):2177-2185.

 10. Wu Daocheng*, Wan Mingxi.  A Novel Fluoride Anion Modified Gelatin Nanogel System for Ultrasound-Triggered Drug Release. J Pharm Pharmaceut Sci 200811 (4): 32-45,

 11. Shuqiang M, Kunzheng W, Xiaoqiang D, Wei W, Mingyu Z, Daocheng W. Osteogenic growth peptide incorporated into PLGA scaffolds accelerates healing of segmental long bone defects in rabbits. J Plast Reconstr Aesthet Surg. 2008 ;61(12):1558-1560.

 12.Fei Z, Hu Y, Wu D, Wu H, Lu R, Bai J, Song H. Preparation and property of a novel bone graft composite consisting of rhBMP-2 loaded PLGA microspheres and calcium phosphate cement. J Mater Sci Mater Med. 2008,19(3):1109-1116

 13. Na Guo, Daocheng Wu*, Xinghua Pan, Maolin Lu Magnetic Polymer Microspheres with AzidocarbonylGroups: Synthesis, Characterization and Application in Protein Immobilization.  Journal of Applied Polymer Science 2009,112(4);2383-2390

 14. Xinghua Pan, Maolin Lu, Daocheng Wu*, Lili Gai. Synthesis and Characterization of Double-layer Quantum Dots- Tagged Microspheres.  IEEE Transactions on NanoBioscience, 2009 ,8(1);13-19

 15. Maolin Lu, Daocheng Wu* Na Guo.  Novel functionalized ternary copolymer fluorescent nanopart- icles: synthesis, fluorescent characteristics and protein immobilization. J Mater Sci: Mater Med 2009, 20(2); 563.-572

 16. Lili GaiDaocheng Wu*.A Novel Reversible pH-Triggered Release Immobilized Enzyme System.  Appl Biochem Biotechnol 2009,158(3):747-760 (2008 On Line , DOI 10.1007/s12010-008-8373-2).

  17. Guangfeng Jia, Daocheng Wu*, Yang Meng and Liang Xu. An Improved Ultrasound-Assisted Extraction Process of Gossypol Acetic Acid from Cottonseed Soapstock. American Institute of Chemical Engineers Journal 2009,55,(3) :797-897
 18.YonghuaZhan ,Guangfeng Jia, Daocheng Wu*, YiqingXu ,and LiangXu. Designand Synthesis of a Gossypol Derivative with Improved AntitumorActivities. Arch.Pharm.Chem.Life Sci.2009,342,223–229.

 19. Sun  F, Wu D., Qiu, Z., Li, J., Development of real-time PCR systems based on SYBR Green for the specific detection and quantification of Klebsiella pneumoniae in infant formula, Food Control , 2010, 21 (5):487-491.
 20.Daocheng  Wu* , Mingxi Wan, Hong Wu . Ultrasonic triggered release drug delivery   system of Pluronic micelle. Nanoscience, 2006,11(3):210-218
  21.Xian-Qing Zhang, Xiao-Feng Huang, Shi-Jie Mu, Qun-Xing An, Ai-Jun Xia, Rui Chen, Dao-Cheng Wu*  Inhibition of proliferation of prostate cancer cell line, PC-3,in vitro and in vivo using (–)-gossypol.     Asian Journal of Andrology 2010,12:390-399.
 22.Wu D*, Wan M. Preparation of the core-shell structure adriamycin lipiodol microemulsions and their  synergistic anti-tumor effects with diethyldithiocarbamate in vivo. Biomedicine & Pharmacotherapy 2010, 64(9):615-23.
  23.Xian-Qing Zhang,  Xiao-Feng Huang, Xing-Bin Hu, Yong-Hua Zhan, Qun-Xing An, Shi-Ming Yang, Ai- Jun Xia,Jing Yi, Rui Chen, Shi-Jie Mu, Dao-Cheng Wu*. Apogossypolone, a novel inhibitor of   antiapoptotic Bcl-2 family proteins, induces autophagy of PC-3 and LNCaP prostate cancer cells in vitro.    Asian Journal of Andrology. 2010;12:697-708.
 24.Xinghua Pan, Jianhui Ju, Yonghua Zhan, and Daocheng Wu*. Preparation and Fluorescence Characteristics of Amido- functionalized Dual-fluorescent Microspheres with Core-shell Structure   Micromolecular Chemistry  & Physics . 2010, 221 (21) ;2347-2355 .
  25.Xinghua Pan , Rachel Thompson , Xiaojie Meng , Daocheng Wu, Liang Xu. Tumor-targeted RNA-interference: functional non-viral nanovectors. Am J Cancer Res 2011;1(1):32-49(invited Review)
  26.Xinghua Pan, Jianhui Ju, Jianjun Li and Daocheng Wu*. Poly(styrene-acrylamide- acrylic acid) copolymer fluorescent microspheres with improved hydrophilicity: preparation and influence on protein immobilization. High Performance Polymers 2011
223);255-262
  27.Liu T, Wu D. Simultaneous determination of some ultraviolet-absorbing chemicals in sunscreen cosmetics using a high-performance liquid chromatography method. Int J Cosmet Sci. 2011, 33, 408–415.
  28.Zhenhai Gan, Jianhui Ju, Ting Zhang, and Daocheng Wu*. Preparation of Rhodamine B Fluorescent Poly(methacrylic acid) Coated Gelatin Nanoparticles. J Nanomaterials 2011, Article ID 753705, 8 pages doi:10.1155/2011/753705.
  29.Wei Gao, Baoyong Sha, Wei Zou, Xuan Liang, Xiangzhong Meng, Hao Xu, Jun Tang, Daocheng  Wu,*   Lixian Xu, Hui Zhang. Cationic Amylose-Encapsulated Bovine Hemoglobin as a Nanosized Oxygen Carrier. Biomaterials 2011,32:9425-9433.
  30.Chen L, Kong X, Liang Z, Ye F, Yu K, Dai W, Wu D*, Luo C*, Jiang H. Theoretical Study of the Mechanism of Proton Transfer in the Esterase Estb from Burkholderia Gladioli. Journal of Physical Chemistry B. 2011, 115 (44):13019–13025.
  31.Lu XY, Wu DC, Li ZJ, Chen GQ. Polymer nanoparticles.  Prog Mol Biol Transl Sci. 2011;104:299-323.
  32. Ruifen Xu, Xuyang Feng, Xin Xie, Jin Zhang, Daocheng Wu*, Lixian Xu*.  HIV-1 Tat protein increase the permeability of brain endothelial cells by both inhibiting Occludin expression and cleaving occludin via matrix metalloproteinase-9. Brain Research 2012,1436:13-19.
  33.Wu Daocheng*, Wan Mingxi. Methylene diphosphonate-conjugated adriamycin    liposomes: Preparation, characteristics, and targeted therapy for osteosarcomas in vitro and in vivo. Biomedical Microdevices 2012,14:497-510

  34.Haseeb Zubair, Husain Y Khan, M.F. Ullah, Aamir Ahmad, Daocheng Wu, S.M.Hadi. Apogossypolone, derivative of gossypol, mobilizes endogenous copper in human peripheral lymphocytes leading to oxidative DNA breakage. European Journal of Pharmaceutical Sciences, 2012 ,47:280-286.  

  35. Liu T, Wu D* High-performance liquid chromatographic determination of triclosan and triclocarban in cosmetic products. Int J Cosmet Sci. 2012 ,34:489-494

  36. Gan Z, Zhang T, Liu Y, Wu D*. Temperature-Triggered Enzyme Immobilization and Release Based on Cross-Linked Gelatin Nanoparticles. PLoSONE. 2012, 7(10): e47154. doi:10.1371/journal.pone.0047154 .

  37.Youshen Wu, Yan Li, Lei Qin, Feilong Yang and Daocheng Wu*. Monodispersed or narrow-dispersed melamine–formaldehyde resin polymer colloidal spheres: Preparation, size-control, modification, bioconjugation, and particle formation mechanism. Journal of Materials.Chemistry. 2013,1:204-212 (doi 10.1039/C2TB00043A).

  38.Chen Zhao, Daocheng Wu*  Rapid detection assay for the molecular imprinting of gossypol using a two-layer PMAA/SiO2 bulk structure with a piezoelectric imprinting sensorSensors & Actuators:B.Chemical, 2013,181104-113.

  39.P Cheng, Z Ni, X Dai, B Wang, W Ding, A Rae Smith, L Xu, D Wu, F He and J Lian. The novel BH-3 mimetic apogossypolone induces Beclin-1- and ROS-mediated autophagy in human hepatocellular cells.Cell Death and Disease, 20134, e489;doi:10.1038/cddis.2013.17    

 40. Yan Li,Youshen Wu, Cheng Luo, Feilong Yang, Lei Qin, Tao Fu, Guangquan Wei, XiaoweiKang,Daocheng Wu*  Preparation and characterization of narrow-dispersed magnetic colloidal nanoparticle cluster/silica microspheres with controlled sizes, high saturation magnetization and MRI enhancement effect. Journal of Materials. Chemistry. B, 2013,1:4644-465  .  

 41.Yun zeng, Shaojuan Zhang,Menghui Jia, Yang Liu, Jin Shang,Youmin Guo,Jianghua Xu and Daocheng Wu*. Hypoxia-sensitive Bis(2-(2-Benzothienyl)-pyridinato-N,C3') Iridium[poly(n-butylcyanoacrylate]/Chitosan nanoparticles and Their Phosphoresence Tumor Imageing In vitro and in vivo. Nanoscale 2013,5,12633 —12644   

42.Xuefan Gu, Youshen Wu, Lingze ZhangYongchun Liu, Yan Li, Yongli Yan and Daocheng Wu*. Hybrid magnetic nanoparticle/nanogold cluster and its distance-dependent metal-enhanced fluorescence effect via DNA hybridization, Nanoscale, 201468681-8693.

43.Youshen Wu, Yan Li, Jianhua Xu and Daocheng Wu*.Incorporating Fluorescent Dyes into Monodisperse Melamine-Formaldehyde Resin Microspheres via Organic Sol-Gel Process: Pre-polymer Doping Strategy.J. Mater. Chem. B, 2014, 235),5837-5846 . 

44.Hao Liu, Ke Li, Lan Lan, Jingwen Ma, Yun Zeng, Liang Xu*and Daocheng Wu*.Double-layered hyaluronic acid/stearic acidmodified polyethyleneimine nanoparticles encapsulating (-)-gossypol: a nanocarrier for chiral anticancer drugs.J. Mater. Chem. B, 2014 2,5238-5248.

45.Ke Li , Hao Liu , Wei Gao , Mu Chen, Yun Zeng , Jiajun Liu, Liang Xu, Daocheng Wu*. Mulberry-like dual-drug complicated nanocarriers assembled with apogossypolone amphiphilic starch micelles and doxorubicin hyaluronic acid nanoparticles for tumor combination and targeted therapy. Biomaterials 2015,39,131-144 

46.Hao Liu , Ke Li, Liang Xu, Daocheng Wu*, Bilayered near-infrared fluorescent nanoparticles based on low molecular weight PEI for tumor-targeted in vivo imaging.  Journal Nanopart Research    2014, 16: 2784     

47. Xuehui Zhang, Xiaoli Xi, Zhongguo Song, Supin Wang, Mingxi Wan, and Daocheng Wu*. Performance Analysis of Spread Spectrum Through Wall Radar   IEEE TRANSACTIONS ON MAGNETICS  2014,50(11):5102004                           

48.Yun Zeng, Yang Liu, Jin Shang, Jingwen Ma, Rong Wang, Lei Deng, Youmin Guo,Fan Zhong, Mingfeng Bai, Shaojuan Zhang, Daocheng Wu*.   Phosphorescence Monitoring of Hypoxic Microenvironment in Solid-Tumors to Evaluate Chemotherapeutic Effects Using the Hypoxia-Sensitive Iridium (III) Coordination Compound. PLoS ONE. 2015,10(3): e0121293. doi:10.1371/ journal.pone.0121293

 49.  Gao wei, Sha Baoyong, Liu Yongchun, Daocheng Wu, Xin Shen,Guixia Jing.    The effect of cationic starch on  hemoglobin, and the primary attempt to capsulate  hemoglobin.  Artificial Cells, Nanomedicine, and Biotechnology 2015,43(3):196-202

 50.Yan Li,  Youshen Wu,Cheng Luo , Bo Wang and Daocheng Wu*. Rewritable megnetic fluorescence-encodeed  microspheres:preparation, characterization, and recycling. J. Mater. Chem C.  2015,3:8262-8271.

  51.Jinwen Ma, Youshen Wu, Yun Zeng,Yan Li and Daocheng Wu*. Thermo-stable hollow megnetic microspheres:preparation, characteristics and recycable catalytic applications. J. Mater. Chem A.  2015,3:16762-16773.

 52. Daocheng Wu*,  Mingxi Wan.  A novel ultrasonic-triggered drug release and tracked drug delivery system based on gas-filled BSA microbubbles and gelatin   nanogels. Journal of Controlled release 2015,213;e24 (doi:10.1016/j.jconrel.2015.05.036)

53.Yiao Yu, Youshen Wu ,  Jiajun Liu, Yonghua  Zhan , Daocheng Wu*  Ultrasmall dopamine-coated  nanogolds: preparation, characteristics, and CT imaging  Journal of Experimental Nanoscience  2016,11(Sup1):S1-S11 (DOI:10.1080/ 17458080. 2015.1102343) 

54.Yao Yu, Youshen Wu, Jiajun Liu, Ke Li, Daocheng Wu*. Metabolizable dopamine-coated gold nanoparticles aggregates: Preparation, characteristics, computed tomography imaging, acute toxicity, and metabolism in vivo.   Journal of Materials Chemistry B, 2016, 4,1090-1099(DOI: 10.1039/C5TB02497H )

55. Zhang X, Xi X, Li M , Wu D*. Comparison of Impulse Radar and Spread-Spectrum Radar in Through-Wall Imaging   IEEE Transactions on Microwave Theory and Techniques , 2016 ,64(3):699-706(DOI:10.1109/TMTT.2015.2508791).

56.Hao Liu and Daocheng Wu*. In vivo near-infrared fluorescence tumor imaging using DiR-loaded nanocarriers.Current Drug Delivery  2016,13(1):40-48 (DOI: 10.2174/1567201812666150703114908. )

 57. Yun Zeng, Jingwen Ma, Shaojuan Zhang, and Daocheng Wu,*  Imaging Agents in Targeting Tumor Hypoxia. Current Medicinal Chemistry, 2016(17), 23, 1775-1800. 

 58..Yongxing Dua,Lingze Zhang,Lulu Sangeand Daocheng Wu,* Temperature field simulation and phantom validation of a Two-armed Spiral Antenna for microwave thermotherapy.Technology and Health Care  2016,24 S675–S682.  

 59.Youshen Wu, Jiajun Liu, Jingwen Ma, Yongchun Liu, Ya Wang, and Daocheng Wu*. Ratiometric  Nanothermometer Based on Rhodamine Dye-Incorporated F127-Melamine-Formaldehyde Polymer Nanoparticle:Preparation, Characterization, Wide-Range Temperature Sensing,and Precise Intracellular Thermometry.ACS Appl. Mater. Inter 2016,8(23):14396-14405.

60.Wei Gao , Yongchun Liu , Guixia Jing , Ke Li , Yuan Zhao , Baoyong Sha  Qiang Wang *,Daocheng Wu *. Rapid and efficient crossing blood-brain barrier: Hydrophobic drugdelivery system based on propionylated amylose helix nanoclusters.Biomaterials 2017;113 :133-144 (DOI : 10.1016/ j.biomaterials.2016.10.045

61.Jingwen Ma, Yun Zeng, Yongchun Liu and Daocheng Wu*.Thermostable polymeric nanomicelles of iridium(III) complexes with aggregation-induced phosphorescence emission    characteristics and  their recyclable double-strand DNA monitoring.  J. Mater. Chem B. 2017,5,123-133.

62. Youshen Wu,Liu Jiajun, Ya Wang, Ke Li , Jianhua Xu , Daocheng Wu*. Novel ratiomatric flourescence nanothermometers based on flouropores-labeled short single-stranded DNA. ACS Appl. Mater. Inter 2017,9(12):11073-11081.

63. Shihong Shen,Youshen Wu,  Yongchun LIu, Daocheng Wu*. High drug-loading nanomedicine:progress, current statues, and prospects. Int J Nanomedicine 2017,12;4085-4109 ( invited Review)

 64.Yongchun Liu ,Chunhong Zhang ,Xizhe LI, Daocheng Wu*. A self-monitored fluorescence .DNA anti-counterfeiting system based on silica coated SYBR Green I/DNA gelatin nanoparticles. J Mater, Chem C , 2017, 5,5939-3948 (DOI: 10.1039/C7TC01380A ) (This article is part of the themed collection 2017 Journal of Materials Chemistry C HOT Papers)

65.Jiajun Liu, Youshen Wu, Yao Yu, Ke Li, Yuanyuan Ji, Daocheng Wu *. Quantitative ratiometric phosphorescence hypoxia–sensing nanoprobes based on Quantum Dots/Ir(III) glycerol monoolein cubic-phase nanoparticles.   Biosensors and Bioelectronics 2017 ,98:119-125 . 

66.Yao Yu, Youshen Wu,  Yongchun Liu ,,Liu Jiajunm, Daocheng Wu*Highly efficient dual-modal phosphorescence/ computed tomography bioprobes based on iridium complex and AuNPs polyiohexol composite nanoparticles ,Nanoscale, 2017, 9,9447-9456 

67. Xiaoying lei,  Ke li, Yan liu,  Zhen Yu Wang,   Ban Jun Ruan, Li Wang,   An Xiang,   Daocheng Wu*,  Zifan Lu*.  Co-delivery nanocarriers targeting folate receptor and encapsulating 2-deoxyglucose and a-tocopheryl succinate enhance anti-tumor effect in vivo. International Journal of Nanomedicine 2017,12,5701-5715.

68. Lu Lei, Peng Tang, Yongchun Liu, Ke Li, Jiajun Liu, Daocheng Wu*.  Controlled thermo-triggered drug release system based on propionylated amylose helix nanoclusters. Journal of Controlled Release ,2017,259 ;e89–e90 

69. Yongchun Liu,Wei Gao,Chunghong Zhang,Peng Tang, Yuan Zhao, Daocheng Wu*.Sequenential molecule-triggered-release system based on acetylated amylose helix aggregates. Chem Comm 2017,53,10680-10683.

70. Shihong Shen ,Youshen Wu ,Ke Li, Ya Wang Jimin Wu Yun Zeng, Daocheng Wu*. Versatile hyaluornic acid modified AQ4N-Cu(II)-gossypol infinite coordination polymer nanoparticles:Mulitiple tumor targeting,highle efficient synergistic chemotherapy and real-time self-montoring.Biomaterials 2018,154:197-212

71. Zeying Liu , Yongchun Liu , Shihong Shen and Daocheng Wu*. Progress of recyclable magnetic particles for biomedical applications. J. Mater. Chem. B, 2018, 6, 366-380

72.Ying Wang , Ya Wang , Ji Wang , Wan Lei , Ke Li , Daocheng Wu , Xiaojuan Wang   Pharmacokinetics, biodistribution,    and    bioavailability of gossypol-loaded Pluronic ® F127 nanoparticles  Journal of Drug Delivery Science and Technology 201845388-396

73.  Ailiang Zhang*, Xumei Yang, Quanxiao Li, Yu Wang, Gan Zhao, Bin Wang, Daocheng Wu*. Immunostimulatory activity of  wat er-extractable polysaccharides from Cistanchedeserticola as a plant    adjuvant in vitro and in vivo. PlosOne 2018,13;1:e0191356

74.  Peng Tang  , Yongchun Liu, Yiming Liu, Hongru Meng  , Zeying Liu, Ke Li , Daocheng Wu* .Thermochromism-induced temperature self-regulation and alternating  photothermal nanohelix clusters for synergistic tumor chemo/photothermal  therapy. Biomaterials  2019,88;12-23

75  Ya Wang,  Youshen Wu,Ke Li  , Shihong Shen, Zeying Liu, Daocheng Wu*. Ultralong Circulating Lollipop‐Like Nanoparticles Assembled with Gossypol, Doxorubicin, and Polydopamine via π–π Stacking for Synergistic Tumor Therapy. Advanced Functional Materials  2019,29(1);1805582  doi.org/10.1002/adfm.201805582

76.Jiajun Liu,Zeying Liu, Daocheng Wu*. Multifunctional hypoxia imaging nanoparticles: multifunctional tumor imaging and related guided tumor therapy.International Journal of Nanomedicine 2019,14;707-719.

77. Hui Zhang,Youshen Wu,Zhenhai Gan,,Yuexuan Yang,Yiming Liu,,Peng Tang and Daocheng Wu*.Accurate intracellular and in vivo temperature sensing based on CuInS2/ZnS QD micelles.J. Mater. Chem B. 2019,7,2835--2844.

78.Hongrui Zhu, Zhenhai Gan, Dapeng Li, Jing Qin, Hongmei Zhang, Mingxi Wan, Daocheng Wu *.  Sensitive detection of dopamine with ultrasound cavitation-enhanced fluorescence method. Microchemical Journal  2019, 150; 104199.

79.Yiming Liu, Ke Li, Youshen Wu, Jingwen Ma, Peng Tang, Yongchun Liua and Daocheng Wu*. PVA reinforced gossypolone and doxorubicin π–π stacking nanoparticles towards tumor targeting and ultralow dose synergistic chemotherapy. Biomaterials Science  2019,7. 3662-2674.

80 Hao Liu, Rebecca T. Marquez, Xiaoqing Wu, Ke Li, Shweta Vadlamani, Song Li, Ya Wang, Liang Xu * and Daocheng Wu *.A non-intrusive evaluation method for tumortargeting characteristics of nanomedicines based on in vivo near-infrared fluorescence imaging.J. Mater. Chem B. 2019,7, 4751- 4757.

81 Yun Zeng, Jingwen Ma, Liang Xu *, Daocheng Wu *.  Natural Product Gossypol and Its Derivatives in Precision Cancer.  Current Medicinal Chemistry.  2019,26; 1849-1873 ( DOI: 10.2174/ 09298673246661 70523123655 )

82.Lingze Zhang, Zeying Liu, Yiming Liu, Ya Wang, Peng Tang, Youshen Wu, Hengbo Huang, Zhenhai Gan, Jiajun Liu, Daocheng Wu  Ultrathin surface coated water-soluble cobalt ferrite nanoparticles with high magnetic heating efficiency and rapid in vivo clearance. Biomaterials 2020230:119655

83.Yang Yuexuan & Wu Daocheng* ,Research shortcomings of fluorescent  nanothermometers in biological and medical fields,  Nanomedicine(Lond.) (Epub ahead of print)   2020  DOI10.2217/nnm-2019-0416

84 Zeying Liu, Lingze Zhang, Peng Xiaoa, Lingfeng Liu, Peng Tang, Ya Wang, Shihong Shen,Jiajun Liu, Zhenhai Gan, Daocheng Wu*. Magnetothermally responsive composite submicron particles for recyclable catalytic applications.Chemical Engineering Journal 2020,399:125554

​​​​​85.Weiqiu Jin, Changzi Dong, Dengtian Yang, Ruotong Zhang, Tianshu Jiang and Daocheng Wu* .Nano-Carriers of Combination Tumor Physical Stimuli-Responsive  Therapies .Current Drug Delivery, 2020, 17 11);577-587 (DOI:  10.2174/1567201817666200525004225 )

86. Ya Wang, Siyuan Luo, Youshen Wu, Peng Tang, Jiajun Liu, Zeying Liu, Shihong Shen, Haozhe Ren,  and Daocheng Wu*. Highly Penetrable and On-Demand Oxygen  Release with Tumor Activity Composite Nanosystem for Photothermal/Photodynamic Synergetic Therapy. ACS nano 2020 1417046-17062( https://dx.doi.org/10.1021/acsnano.0c06415)

87. Siyuan Luo, Ya Wang, Shihong Shen, Peng Tang, Zeying Liu, Shuai Zhang, and Daocheng Wu*, IR780-Loaded Hyaluronic Acid@Gossypol–Fe(III)–EGCG Infinite Coordination Polymer Nanoparticles for Highly Efficient Tumor Photothermal/Coordinated Dual Drugs Synergistic Therapy. Adv. Funct. Mater. 2021, 31(24);2100954( https://doi.org/10.1002/adfm.202100954).

88.Peng Tang, Yongchun Liu, Yuan Gao, Ya Wang, Hui Zhang, Yiming Liu, Daocheng Wu*.   Study on thermal-responsive unfolding characteristics of acetylated amylose V-type helical complex using molecular dynamic simulation.Journal of Materials Chemistry B, 2021, 9, 3389 - 3400

89.Shuai Zhang, Shuo Zhang, Siyuan Luo, Daocheng Wu*.Therapeutic agent-based infinite coordination polymer nanomedicines for tumor therapy  Coordination Chemistry Reviews  2021,445;214059 DOI 10.1016/j.ccr.2021.214059

90.Dui Qin, Lei Zhang,Hongrui Zhu, Junjie Chen, Daocheng WuMinxi Wan*,​​​ Yi Feng* A Highly Efficient One-for-All Nanodroplet for Ultrasound Imaging-Guided and Cavitation-Enhanced Photothermal Therapy   International Journal of Nanomedicine  2021,16,3105-3119

91.Hui Zhang, Youshen Wu, Peng Tang, Hongrui Zhu, Zhenhai Gan, Hu-Qin Zhang,and Daocheng Wu*.  Accurate and Real-Time Detection Method for the Exothermic Behavior of Enzymatic Nano-Microregions Using Temperature-Sensitive Amino-AgInS2 Quantum Dots. Small Methods 2021, 2100811

92.Yiming Liu, Peng Tang, Peng Xiao, Siyuan Luo, Shuangxi Zhang, Hui Zhang,Yuexuan Yang, and Daocheng Wu*.Molecular Stacking Composite Nanoparticles of Gossypolone and Thermodynamic Agent for Elimination of Large Tumor in Mice via Electrothermal-Thermodynamic-Chemo Trimodal Combination Therapy. Advanced. Functional. Materials 2022,3228202201666(doi.org/10.1002/adfm.202201666)

93. Shuo Zhang, Shuai Zhang, Siyuan Luo, Peng Tang, Mingxi Wan, Daocheng Wu* and Wei Gao* .Ultrasound-assisted brain delivery of nanomedicines for brain tumor therapy: advance and prospect .Journal of Nanobiotechnology 2022,20;287

94.Yan Li, Hongrui Zhu, Junbo Duan, Youshen Wu and Daocheng Wu *.Laser-induced photoexcited audible sound effect based on reticular 2-bromo-2-methylpropionic acid modied Fe3O4 nanoparticle aggregates.  Nanoscale, 2022, 14, 16787-16796

95.Zeying Liu, Zhen Zhang, Chenqi Huang, Jingran Di, Ziwei Lu, Zhenhai Gan, Yali Cui, Daocheng Wu *.IR780-doped cobalt ferrite nanoparticles@poly(ethylene glycol) microgels as dual-enzyme immobilized micro-systems: Preparations, photothermal-responsive dual-enzyme release, and highly efficient recycling. Journal of Colloid And Interface Science  2023,644;81-94

96.Zhezhu Nan, Hengyu Liu, Linrong Shi, Hongrui Zhu, Junjie Chen, Tali Ilovitsh, Daocheng Wu,Mingxi Wan, and Yi Feng*.Ratiometric Fluorescent Detection of Ultrasound-Regulated ATP Release: An Ultrasound-Resistant Cu,N-Doped Carbon Nanosphere.: ACS Appl. Mater. Interfaces 2023, 15, 3273232743 
97.Shuo Zhang, Yishu Wang, Shuai Zhang, Chengqi Huang, Qiyang Ding, Ji Xia, Daocheng Wu,* Wei Gao*. Emerging Anesthetic Nanomedicines: Current State and Challenges.International Journal of Nanomedicine 2023:18 3913–3935
98.Hongrui Zhu
Chenqi HuangJingran DiZepu ChangKe LiShuo ZhangXueping Li and Daocheng Wu*. Doxorubicin-Fe(III)-Gossypol Infinite Coordination Polymer@PDA:CuO2 Composite Nanoparticles for Cost-Effective Programmed Photothermal-Chemodynamic-Coordinated Dual Drug Chemotherapy Trimodal Synergistic Tumor Therapy.ACS nano 2023 ,17:12544-12562

99.Ya Wang, Yujie Zhang, Pengqian Wang, Jing Han, Xiaojiang Zhang, Feiyu Shi, Zhe Zhang, Gang Guo, Ruochen Wang, Dan Shao, Daocheng Wu*, Junjun She*. Intestinal Colonized Silkworm Chrysalis-Like Probiotic Composites for Multi-crossed Comprehensive Synergistic Therapy of Inflammatory Bowel Disease.Small 2024.DOI: 10.1002/smll.202310851(https://doi.org/10.1002/smll.202310851)

100.Shuai Zhang,Shuo Zhang,Siyuan Luo, Rong Wang,Jingran Di,Ya Wang, Daocheng Wu*. Four-component of double-layer infinite coordination polymer nanocomposites for large tumor trimodal therapy via multi high-efficiency synergies.  Journal of Colloid and Interface Science.2024 ,666:259-275(https://doi.org/10.1016/j.jcis.2024.04.039)

101.Shuo Zhang, Yishu Wang, Mingting Zhu, Bingyang Liu, Wenpu Zhao, Shuai Zhang, Ji Xia, Lei Shi, Peng Tang, Feiqian Wang, Siyuan Zhang, Mingxi Wan, Daocheng Wu* and Wei Gao*. Ultrasound Combined Blood-Brain Barrier Targeting Brain Delivery of Four -in -one Molecular Aggregates for the Enhancement of Anesthetic Efficacy and Toxicity Reduction via Propofol-etomidate Synergistically Inhibition GABA Receptor. Aggregate.2024, e573. https://doi.org/10.1002/agt2.573.

102.Jingran Di, Chenqi Huang, Chenyu Zhao, Siyuan Luo, Rong Wang, Shuai Zhang,Hongrui Zhu and Daocheng Wu *.Intravenous injectable metformin-Cu(II)-EGCG coordination polymer nanoparticles for electrothermally enhanced dual-drug synergistic tumor therapy.Journal of Materials Chemistry B.2024,12, 7934–7945.

103.Yujie Zhang, Ya Wang,* Xiaojiang Zhang, Pengqian Wang, Feiyu Shi, Zhe Zhang, Ruochen Wang, Daocheng Wu,* and Junjun she*.Gastrointestinal Self-Adaptive and Nutrient Self-Sufficient Akkermansia muciniphilaGelatin Porous Microgels for Synergistic Therapy of Ulcerative Colitis. ACS nano 2024,39,26807-26827

  104.Amrah Inam, Shuo Zhang, Shuai Zhang and Daocheng Wu*. AQ4N nanocomposites for hypoxia-associated tumor combination therapy.Biomaterials Science 2024, 12,5883-5911.(https://doi.org/10.1021/acsnano.4c07658)

105. Hongrui Zhu, Daqing Xia, Huan He, Jixi Zhang,* and Daocheng Wu*.Polydopamine Decorated Hyaluronic Acid Clusters for Tumor Cell Targeting Combination Therapy via Template Self-Consumption Methods.Macromol. Rapid Commun. 2024, 2400887

(*correspondence author)