陈华兵

发布时间:2026-02-10浏览次数:73

  • 1、Dual temperature/pH-sensitive drug delivery of poly(N-isopropylacrylamide-co-acrylic acid) nanogels conjugated with doxorubicin for potential application in tumor hyperthermia therapy,Colloids Surf B: Interfaces,SCI,2011,Xiong Wei,Huazhong University of Science and Technology,Wang Wei,Wang Yi,Zhao Yanbing,Huazhong University of Science and Technology,84/2/447-453,5
  • 2、Potent dried drug nanosuspensions for oral bioavailability enhancement of poorly soluble drugs with pH-dependent solubility,Int J Pharm,SCI,2011,Mou Dongsheng,Huazhong University of Science and Technology,陈华兵,Wan Jiangling,Yang Xiangliang,Huazhong University of Science and Technology,413/1-2/237-244,2
  • 3、Nanonization strategies for poorly water-soluble drugs,Drug Discov Today,SCI,2011,陈华兵,University of Texas Southwestern Medical Center,Khemtong Chalermchai,Yang Xiangliang,Gao Jinming,University of Texas Southwestern Medical Center,16/7-8/354-360,1
  • 4、Highly compressed assembly of deformable nanogels into nanoscale suprastructures and their application in nanomedicine,ACS Nano,SCI,2011,陈华兵,Huazhong University of Science and Technology,Zhu Hongda,Hu Jingdong,Yang Xiangliang,Huazhong University of Science and Technology,5/4/2671-2680,1
  • 5、Superparamagnetic iron oxide nanoparticles: amplifying ROS stress to improve anticancer drug efficacy,Theranostics,SCI,2013,Huang Gang,University of Texas Southwestern Medical Center,陈华兵,Dong Ying,Boothman David A.,University of Texas Southwestern Medical Center,3/2/116-126,2
  • 6、Micelles assembled with carbocyanine dyes for theranostic near-infrared fluorescent cancer imaging and photothermal therapy,Biomaterials,SCI,2013,Yang Hong,苏州大学,Mao Huajian,Wan Zhihui,陈华兵,苏州大学,34/36/9124-9133,1
  • 7、Enzyme-triggered supramolecular self-assembly of platinum prodrug with enhanced tumor-selective accumulation and reduced systemic toxicity,J Mater Chem B,SCI,2014,Liu Huan,苏州大学,Li Yanli,Lyu Zhonglin,Li Xinming,苏州大学,2/47/8303-8309,6
  • 8、Highly efficient hierarchical micelles integrating photothermal therapy and singlet oxygen-synergized chemotherapy for cancer eradication,Theranostics,SCI,2014,Wan Zhihui,苏州大学,Mao Huajian,Guo Miao,陈华兵,苏州大学,4/4/399-411,1
  • 9、Dual imaging-guided photothermal/photodynamic therapy using micelles,Biomaterials,SCI,2014,Guo Miao,苏州大学,Mao Huajian,Li Yanli,陈华兵,苏州大学,35/16/4656-4666,1
  • 10、Polyion complex vesicles for photo-induced intracellular delivery of amphiphilic photosensitizer.,Journal of the American Chemical Society,SCI,2013,陈华兵,苏州大学,Ling Xiao,Yasutaka Anraku,Kazunori Kataoka,The University of Tokyo,136/157-63,1
  • 11、A theranostic prodrug delivery system based on Pt(IV) conjugated nano-graphene oxide with synergistic effect to enhance the therapeutic efficacy of Pt drug. ,Biomaterials,SCI,2015,Li Jingwen,苏州大学,Zhonglin Lyv,Yanli Li,陈华兵,苏州大学,51/12/21,2
  • 12、pH-responsive cyanine-grafted graphene oxide for fluorescence resonance energy transfer-enhanced photothermal therapy.,Advanced Functional Materials,SCI,2014,Guo Miao,苏州大学,Jie Huang,Deng Yibin ,陈华兵,苏州大学,25/59-67,1
  • 13、Rational design and synthesis of γFe2O3@Au magnetic gold nanoflowers for efficient cancer theranostics.,Advanced Materials,SCI,2015,Huang Jie ,苏州大学,Guo Miao ,Ke Hengte ,陈华兵,苏州大学,27/5049-5056,2
  • 14、Smart albumin-biomineralized nanocomposites for multimodal imaging and photothermal tumor ablation.,Advanced Materials,SCI,2015,Wang Yong ,苏州大学,Yang Tao ,Ke Hengte ,陈华兵,苏州大学,27/3874-3882,1
  • 15、pH/reduction-responsive vesicles for ultrahigh-contrast fluorescence imaging and thermo-chemotherapy-synergized tumor ablation.,ACS Nano,SCI,2015,Zhu Aijun,苏州大学,Miao Ke,Deng Yibin ,陈华兵,苏州大学,9/7874-7885,1
  • 16、Multi-pronged design of light-triggered nanoparticles to overcome cisplatin resistance for efficient ablation of resistant tumor.,ACS Nano,SCI,2015,Li Yanli,苏州大学,Deng Yibin ,Tian Xin ,陈华兵,苏州大学,9/9626-9637,1
  • 17、In vivo covalent cross-linking of photo-converted rare-earth nanostructures for tumor localization and theranostics. ,Nature communications,SCI,2016,Ai Xiangzhao,Nanyang Technological University,Chris Jun Hui Ho,AwJunxin ,Bengang Xing,Nanyang Technological University,7/10432,10
  • 18、Cancer-targeted nanotheranostics: recent advances and perspectives.,Small,SCI,2016,Ma Yufei,苏州大学,Huang Jie ,Song Saijie ,陈华兵,苏州大学,12/4936-4954,2
  • 19、Rational design of multi-stimuli-responsive nanoparticles for precise cancer therapy.,ACS Nano,SCI,2016,An Xiaonan,苏州大学,Zhu Aijun,Luo Huanhuan,陈华兵,苏州大学,10/5947-5958,2
  • 20、Protein nanoreactor-assisted synthesis of semiconductor nanocrystals for efficient cancer theranostics.,Advanced Materials,SCI,2016,Yang Tao,苏州大学,Wang Yong,Ke Hengte ,陈华兵,苏州大学,28/5923-5930,1
  • 21、Bifunctional platinated nanoparticles for photo-induced tumor ablation. ,Advanced Materials,SCI,2016,Guo Zhengqing,苏州大学,Zou Yelin,He Hui ,陈华兵,苏州大学,28/10155-10164,1
  • 22、Indocyanine green loaded magnetic carbon nanoparticles for near infrared fluorescence/magnetic resonance dual-modal imaging and photothermal therapy of tumor. ,ACS Applied Materials & Interfaces,SCI,2017,Song Saijie,University of Science and Technology of China,He Shen,Yang Tao,Zhang Zhijun,Chinese Academy of Sciences,9/9484-9495,6
  • 23、Mitochondria-targeted platinum(II) complexes: dual inhibitory activities on tumor cell proliferation and migration/invasion via intracellular trafficking of beta-catenin.,Metallomics,SCI,2017,Li Jingling ,苏州大学,Yang Hong,Zou Yeling,Guo Zhengqing ,苏州大学,9/726-733,1
  • 24、Cyanine-anchored silica nanochannels for light-driven synergistic thermo-chemotherapy,Small,SCI,2016,Deng Yibin,苏州大学,He Xiaoli,Yang Hong,陈华兵,苏州大学,13/1602747,3
  • 25、Size-tunable Gd2O3@albumin nanoparticles conjugating Chlorin e6 for magnetic resonance imaging-guided photo-induced therapy.,Theranostics,SCI,2017,Zhou Lijuan,苏州大学,Yang Tao,Wang Junxing,陈华兵,苏州大学,7/764-774,3
  • 26、Size-dependent Ag2S nanodots for second near-infrared fluorescence/photoacoustics imaging and simultaneous photothermal therapy,ACS Nano,SCI,2017,Yang Tao,苏州大学,Tang Yong'an,Liu Ling,陈华兵,苏州大学,11/1848-1857,1
  • 27、Photoconversion-tunable fluorophore vesicles for wavelength-dependent photo-induced cancer therapy,Advanced Materials,SCI,2017,He Hui,苏州大学,Ji Shuangshuang,He Yang,陈华兵,苏州大学,29/1606690,3
  • 28、MnO2-based nanoplatform serves as drug vehicle and MRI contrast agent for cancer theranostics, ACS Appl Mater Interfaces,SCI,2017,Zhang Mei,China Pharmaceutical University,Xing Lei,Ke Hengte,陈华兵,苏州大学,9/11337-11344,1
  • 29、Ultrastable near-infrared conjugated polymer nanoparticles for dually photoactive tumor inhibition.,Advanced Materials,SCI,2017,Yang Tao,苏州大学,Liu Ling,Deng Yibin,陈华兵,苏州大学,29/1700487,3
  • 30、Albumin nanoreactor-templated synthesis of Gd2O3/CuS hybrid nanodots for cancer theranostics.,Sci China Mater,SCI,2017,Li Junjie,苏州大学,Wei Kai,Zuo Shuai,陈华兵,苏州大学,60/554-562,3
  • 31、Light-triggered clustered vesicles with self-supplied oxygen and tissue penetrability for photodynamic therapy against hypoxic tumor,Advanced Functional Materials,SCI,2017,Li Junjie,苏州大学,Wei Kai,Zuo Shuai,陈华兵,苏州大学,27/1702108,1
  • 32、Mutually synergistic nanoparticles for effective thermo-molecularly targeted therapy,Advanced Functional Materials,SCI,2017,Luo Huanhuan,苏州大学,Wang Qiaoli,Deng Yibin,陈华兵,苏州大学,27/1702834,1
  • 33、Bifunctional tellurium nanodots for photo-induced synergistic cancer therapy,ACS Nano,SCI,2017,Yang Tao,苏州大学,Ke Hengte,Wang Qiaoli,陈华兵,苏州大学,11/10012-10024,1
  • 34、Light-responsive nanoparticles for highly efficient cytoplasmic delivery of anticancer agents,ACS Nano,SCI,2017,Tang Yong'an,苏州大学,Deng Yibin,Luo Huanhuan,陈华兵,苏州大学,11/12134-12144,1
  • 35、Albumin-coordinated assembly of clearable platinum nanodots for photo-induced cancer theranostics,Biomaterials,SCI,2018,Tang Yong'an,苏州大学,Yang Tao,Wang Qiaoli,陈华兵,苏州大学,154/248-260,3
  • 36、Rational design of conjugated photosensitizers with controllable photoconversion for dually cooperative phototherapy,Advanced Materials,SCI,2018,Ye Shuyue,苏州大学,Rao Jiaming,Qiu Shihong,陈华兵,苏州大学,30/1801216,1
  • 37、Rationally designed monodisperse Gd2O3/Bi2S3 hybrid nanodots for efficient cancer theranostics,Small,SCI,2018,Lv Xiaoyan,苏州大学,Wang Xue,Li Ting,陈华兵,苏州大学,14/1802904,4
  • 38、Precise nanomedicine for intelligent therapy of cancer,Sci China Chem,SCI,2018,Chen Huabing,苏州大学,Gu Zhanjun,An Hongwei,Zhao Yuliang,Natl Ctr Nanosci & Technol China,61/1503-1552,1
  • 39、Spatiotemporally light-activatable platinum nanocomplexes for selective and cooperative cancer therapy,ACS Nano,SCI,2019,Zhao Hao,Huazhong University of Science and Technology,Xu Jiabao,Huang Wenjing,陈华兵,苏州大学,13/6647-6661,2
  • 40、Therapeutic polymersome nanoreactors with tumor-specific activable cascade reactions for cooperative cancer therapy,ACS Nano,SCI,2019,Ke Wendong,University of Science and Technology of China,Li Junjie,Mohammed Fathelrahman,陈华兵,苏州大学,13/2357-2369,3
  • 41、LRP1-upregulated nanoparticles for efficiently conquering the blood-brain barrier and targetedly suppressing multifocal and infiltrative brain metastases,J Control Release,SCI,2019,Guo Qian,苏州大学,Zhu Qiuning,Miao Tongtong,陈华兵,苏州大学,303/117-129,2
  • 42、Recent progress in drug delivery,Acta Pharm Sin B,SCI,2019,Li Chong,苏州大学,Wang Jiancheng ,Wang Yiguang ,陈华兵,苏州大学,9/1145-1162,4
  • 43、Amphiphilic BODIPY dye aggregates in polymeric micelles for wavelength-dependent photo-induced cancer therapy,J Mater Chem B,SCI,2020,Yan Ziling,苏州大学,Wang Mengya,Shi Mengke,陈华兵,苏州大学,8/6886-6897,3
  • 44、Ultrastable near-infrared nonlinear organic chromophore nanoparticles with intramolecular charge transfer for dually photoinduced tumor ablation,Adv Healthc Mater,SCI,2020,Zhang Yi,苏州大学,Shi Mengke,Yan Zhangren,陈华兵,苏州大学,9/2001042,3
  • 45、Serum protein-based nanoparticles for cancer diagnosis and treatment,J Control Release,SCI,2021,Iqbal Haroon,苏州大学,Yang Tao,Li Ting,陈华兵,苏州大学,329/997-1022,1
  • 46、Biomineralized iron oxide-polydopamine hybrid nanodots for contrast-enhanced T1-weighted magnetic resonance imaging and photothermal tumor ablation,J Mater Chem B,SCI,2021,Wang Ze'ai,苏州大学,Wang Yanfeng,Wang Yuan,陈华兵,苏州大学,9/1781-1786,3
  • 47、Immune checkpoint inhibitor-based strategies for synergistic cancer therapy,Adv Healthc Mater,SCI,2021,He Mengying,苏州大学,Yang Tao,Wang Yuhan,陈华兵,苏州大学,10/2002104,1
  • 48、Heavy-atom-modulated supramolecular assembly increases antitumor potency against malignant breast tumors via tunable cooperativity,Adv Mater,SCI,2020,Guo Zhengqing,苏州大学,He Hui,Zhang Yi,陈华兵,苏州大学,33/2004225,1
  • 49、Highly Efficient far-red/NIR-absorbing neutral Ir(III) complex micelles for potent photodynamic/photothermal therapy,Adv Mater,SCI,2021,Liu Bingqing,North Dakota State University,Jiao Jian,Xu Wan,陈华兵,苏州大学,33/32/e2100795,2
  • 50、 Bacterial outer membrane vesicle-templated biomimetic nanoparticles for synergistic photothermo-immunotherapy,Nano Today,SCI,2022,Qin Jiaqi,苏州大学,Yang Tao,Li Jianye,陈华兵,苏州大学,46/101591,3
  • 51、Self-activated arsenic manganite nanohybrids for visible and synergistic thermo/immuno-arsenotherapy,J Control Release,SCI,2022,Zhai Yanhua,苏州大学,Liu Ming,Yang Tao,陈华兵,苏州大学,350/761-776,1
  • 52、Holographically activatable nanoprobe via glutathione/albumin-mediated exponential signal amplification for high-contrast tumor imaging,Adv Mater,SCI,2022,Li Ting,苏州大学,Tan Shuangxiu,Li Mengjuan,陈华兵,苏州大学,35/10/e2209603,2
  • 53、A pH-activatable copper- biomineralized proenzyme for synergistic chemodynamic/ chemo-immunotherapy against aggressive cancers,Adv Mater,SCI,2023,Li Ting,苏州大学,Zhang Ying,Zhu Jie,陈华兵,苏州大学,35/14/e2210201,1
  • 54、Nanoparticles-mediated TRPV1 channel blockade amplifies cancer thermo-immunotherapy via heat shock factor 1 modulation,Nat Commun,SCI,2023,Li Ting,苏州大学,Jiang Shuhui,Zhang Ying,陈华兵,苏州大学,14/1/2498,1
  • 55、Long-acting nanohybrid hydrogel induces persistent immunogenic chemotherapy for suppressing postoperative tumor recurrence and metastasis,Mol Pharmaceutics,SCI,2023,Li Yaoqi,苏州大学,Zhu Jie,Yang Yifan,陈华兵,苏州大学,20/12/6345-6357,2
  • 56、Harness arsenic in medicine: current status of arsenicals and recent advances in drug delivery,Expert Opin Drug Deliv,SCI,2024,Liu Fan,苏州大学,Deng Yibin,Wang Anru,陈华兵,苏州大学,21/6/867-880,1
  • 57、A bioinspired doxorubicin-carried albumin nanocage against aggressive Cancer via systemic targeting of tumor and lymph node metastasis,J Control Release,SCI,2024,Iqbal Haroon,苏州大学,Razzaq Anam,Liu Fan,陈华兵,苏州大学,372/829-845,2
  • 58、A photoactivatable self-assembled nanoagonist for synergistic therapy against pancreatic ductal adenocarcinoma,Nano Lett,SCI,2024,Xu Xiangxiang,苏州大学,Li Ting,Yang Tao,陈华兵,苏州大学,24/39/12239-12248,1
  • 59、 Self-assembled carbon monoxide nanoprodrug for chemiexcitation-triggered synergistic chemotherapy against breast cancer,Sci. China Chem,SCI,2025,Cui Shunfei,苏州大学,Pan Yiyao,Ma Chenzhe,陈华兵,苏州大学,68/6/2565-2571,3
  • 60、Albumin-chaperoned deep-nir triarylmethane dyes for high-contrast in vivo imaging and photothermal therapy,Adv Mater,SCI,2025,Zhang Xiaodong,East China University of Science and Technology,Liu Ming,Hu Yingqi,陈华兵,苏州大学,37/1/e2411515,3
  • 61、J-Aggregated indocyanine green-loaded exosomes enable photoactivatable cytoplasmic delivery of STING agonist for targeted pancreatic cancer immunotherapy,Nano Today,SCI,2025,Li Ming,陈华兵,Yang Yifan,Yang Zhengyu,陈华兵,苏州大学,62/102727,2