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1. Robust Manipulation Primitive Learning via Domain Contraction

Author

Xue, Teng, Razmjoo, Amirreza, Shetty, Suhan, and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Contact-rich manipulation plays an important role in human daily activities, but uncertain parameters pose significant challenges for robots to achieve comparable performance through planning and control. To address this issue, domain adaptation and domain randomization have been proposed for robust policy learning. However, they either lose the generalization ability across diverse instances or perform conservatively due to neglecting instance-specific information. In this paper, we propose a bi-level approach to learn robust manipulation primitives, including parameter-augmented policy learning using multiple models, and parameter-conditioned policy retrieval through domain contraction. This approach unifies domain randomization and domain adaptation, providing optimal behaviors while keeping generalization ability. We validate the proposed method on three contact-rich manipulation primitives: hitting, pushing, and reorientation. The experimental results showcase the superior performance of our approach in generating robust policies for instances with diverse physical parameters., Comment: Conference on Robot Learning (CoRL), 2024

Published
2024

2. Logic-Skill Programming: An Optimization-based Approach to Sequential Skill Planning

Author

Xue, Teng, Razmjoo, Amirreza, Shetty, Suhan, and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Recent advances in robot skill learning have unlocked the potential to construct task-agnostic skill libraries, facilitating the seamless sequencing of multiple simple manipulation primitives (aka. skills) to tackle significantly more complex tasks. Nevertheless, determining the optimal sequence for independently learned skills remains an open problem, particularly when the objective is given solely in terms of the final geometric configuration rather than a symbolic goal. To address this challenge, we propose Logic-Skill Programming (LSP), an optimization-based approach that sequences independently learned skills to solve long-horizon tasks. We formulate a first-order extension of a mathematical program to optimize the overall cumulative reward of all skills within a plan, abstracted by the sum of value functions. To solve such programs, we leverage the use of tensor train factorization to construct the value function space, and rely on alternations between symbolic search and skill value optimization to find the appropriate skill skeleton and optimal subgoal sequence. Experimental results indicate that the obtained value functions provide a superior approximation of cumulative rewards compared to state-of-the-art reinforcement learning methods. Furthermore, we validate LSP in three manipulation domains, encompassing both prehensile and non-prehensile primitives. The results demonstrate its capability to identify the optimal solution over the full logic and geometric path. The real-robot experiments showcase the effectiveness of our approach to cope with contact uncertainty and external disturbances in the real world., Comment: In Proc. Robotics: Science and Systems (RSS), 2024

Published
2024

3. Logic Learning from Demonstrations for Multi-step Manipulation Tasks in Dynamic Environments

Author

Zhang, Yan, Xue, Teng, Razmjoo, Amirreza, and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Learning from Demonstration (LfD) stands as an efficient framework for imparting human-like skills to robots. Nevertheless, designing an LfD framework capable of seamlessly imitating, generalizing, and reacting to disturbances for long-horizon manipulation tasks in dynamic environments remains a challenge. To tackle this challenge, we present Logic Dynamic Movement Primitives (Logic-DMP), which combines Task and Motion Planning (TAMP) with an optimal control formulation of DMP, allowing us to incorporate motion-level via-point specifications and to handle task-level variations or disturbances in dynamic environments. We conduct a comparative analysis of our proposed approach against several baselines, evaluating its generalization ability and reactivity across three long-horizon manipulation tasks. Our experiment demonstrates the fast generalization and reactivity of Logic-DMP for handling task-level variants and disturbances in long-horizon manipulation tasks., Comment: Accepted by IEEE RA-L

Published
2024

4. D-LGP: Dynamic Logic-Geometric Program for Reactive Task and Motion Planning

Author

Xue, Teng, Razmjoo, Amirreza, and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Many real-world sequential manipulation tasks involve a combination of discrete symbolic search and continuous motion planning, collectively known as combined task and motion planning (TAMP). However, prevailing methods often struggle with the computational burden and intricate combinatorial challenges, limiting their applications for online replanning in the real world. To address this, we propose Dynamic Logic-Geometric Program (D-LGP), a novel approach integrating Dynamic Tree Search and global optimization for efficient hybrid planning. Through empirical evaluation on three benchmarks, we demonstrate the efficacy of our approach, showcasing superior performance in comparison to state-of-the-art techniques. We validate our approach through simulation and demonstrate its reactive capability to cope with online uncertainty and external disturbances in the real world. Project webpage: https://sites.google.com/view/dyn-lgp., Comment: 2024 IEEE International Conference on Robotics and Automation (ICRA)

Published
2023

6. Projection-based first-order constrained optimization solver for robotics

Author

Girgin, Hakan, Löw, Tobias, Xue, Teng, and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Robot programming tools ranging from inverse kinematics (IK) to model predictive control (MPC) are most often described as constrained optimization problems. Even though there are currently many commercially-available second-order solvers, robotics literature recently focused on efficient implementations and improvements over these solvers for real-time robotic applications. However, most often, these implementations stay problem-specific and are not easy to access or implement, or do not exploit the geometric aspect of the robotics problems. In this work, we propose to solve these problems using a fast, easy-to-implement first-order method that fully exploits the geometric constraints via Euclidean projections, called Augmented Lagrangian Spectral Projected Gradient Descent (ALSPG). We show that 1. using projections instead of full constraints and gradients improves the performance of the solver and 2. ALSPG stays competitive to the standard second-order methods such as iLQR in the unconstrained case. We showcase these results with IK and motion planning problems on simulated examples and with an MPC problem on a 7-axis manipulator experiment., Comment: 8 pages, 7 figures, submitted to Robotics and Automation Letters

Published
2023

8. Contact Optimization with Learning from Demonstration: Application in Long-term Non-prehensile Planar Manipulation

Author

Xue, Teng and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Long-term non-prehensile planar manipulation is a challenging task for planning and control, requiring determination of both continuous and discrete contact configurations, such as contact points and modes. This leads to the non-convexity and hybridness of contact optimization. To overcome these difficulties, we propose a novel approach that incorporates human demonstrations into trajectory optimization. We show that our approach effectively handles the hybrid combinatorial nature of the problem, mitigates the issues with local minima present in current state-of-the-art solvers, and requires only a small number of demonstrations while delivering robust generalization performance. We validate our results in simulation and demonstrate its applicability on a pusher-slider system with a real Franka Emika robot., Comment: Abstract paper for Life-Long Learning with Human Help (L3H2) workshop held in ICRA 2023

Published
2023

9. Risk factor analysis and establishment of a nomogram model to predict blood loss during total knee arthroplasty

Author

Yikai Liu, Jiangshan Ai, Xue Teng, Zhenchao Huang, Haoshen Wu, Zian Zhang, Wenzhe Wang, Chang Liu, and Haining Zhang

Subjects
Total knee arthroplasty, Blood loss, Risk factor, Prediction model, Nomogram, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Purpose The risk factors for excessive blood loss and transfusion during total knee arthroplasty (TKA) remain unclear. The present study aimed to determine the risk factors for excessive blood loss and establish a predictive model for postoperative blood transfusion. Methods This retrospective study included 329 patients received TKA, who were randomly assigned to a training set (n = 229) or a test set (n = 100). Univariate and multivariate linear regression analyses were used to determine risk factors for excessive blood loss. Univariate and multivariate logistic regression analyses were used to determine risk factors for blood transfusion. R software was used to establish the prediction model. The accuracy and stability of the models were evaluated using calibration curves, consistency indices, and receiver operating characteristic (ROC) curve analysis. Results Risk factors for excessive blood loss included timing of using a tourniquet, the use of drainage, preoperative ESR, fibrinogen, HCT, ALB, and free fatty acid levels. Predictors in the nomogram included timing of using a tourniquet, the use of drainage, the use of TXA, preoperative ESR, HCT, and albumin levels. The area under the ROC curve was 0.855 (95% CI, 0.800 to 0.910) for the training set and 0.824 (95% CI, 0.740 to 0.909) for the test set. The consistency index values for the training and test sets were 0.855 and 0.824, respectively. Conclusions Risk factors for excessive blood loss during and after TKA were determined, and a satisfactory and reliable nomogram model was designed to predict the risk for postoperative blood transfusion.

Published
2024
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10. Demonstration-guided Optimal Control for Long-term Non-prehensile Planar Manipulation

Author

Xue, Teng, Girgin, Hakan, Lembono, Teguh Santoso, and Calinon, Sylvain

Subjects
Computer Science - Robotics
Abstract

Long-term non-prehensile planar manipulation is a challenging task for robot planning and feedback control. It is characterized by underactuation, hybrid control, and contact uncertainty. One main difficulty is to determine both the continuous and discrete contact configurations, e.g., contact points and modes, which requires joint logical and geometrical reasoning. To tackle this issue, we propose a demonstration-guided hierarchical optimization framework to achieve offline task and motion planning (TAMP). Our work extends the formulation of the dynamics model of the pusher-slider system to include separation mode with face switching mechanism, and solves a warm-started TAMP problem by exploiting human demonstrations. We show that our approach can cope well with the local minima problems currently present in the state-of-the-art solvers and determine a valid solution to the task. We validate our results in simulation and demonstrate its applicability on a pusher-slider system with a real Franka Emika robot in the presence of external disturbances., Comment: This paper has been accepted for publication at the IEEE International Conference on Robotics and Automation (ICRA), London, 2023

Published
2022

12. Pd/NiMoO4/NF electrocatalysts for the efficient and ultra-stable synthesis and electrolyte-assisted extraction of glycolate

Author

Kai Shi, Di Si, Xue Teng, Lisong Chen, and Jianlin Shi

Subjects
Science
Abstract

Abstract Electrocatalytic conversion of organic small molecules is a promising technique for value-added chemical productions but suffers from high precious metal consumption, poor stability of electrocatalysts and tedious product separation. Here, a Pd/NiMoO4/NF electrocatalyst with much lowered Pd loading amount (3.5 wt.%) has been developed for efficient, economic, and ultra-stable glycolate synthesis, which shows high Faradaic efficiency (98.9%), yield (98.8%), and ultrahigh stability (1500 h) towards electrocatalytic ethylene glycol oxidation. Moreover, the obtained glycolic acid has been converted to value-added sodium glycolate by in-situ acid-base reaction in the NaOH electrolyte, which is atomic efficient and needs no additional acid addition for product separation. Moreover, the weak adsorption of sodium glycolate on the catalyst surface plays a significant role in avoiding excessive oxidation and achieving high selectivity. This work may provide instructions for the electrocatalyst design as well as product separation for the electrocatalytic conversions of alcohols.

Published
2024
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19. Development of novel salicylic acid–donepezil–rivastigmine hybrids as multifunctional agents for the treatment of Alzheimer’s disease

Author

Yi Zhou, Ying He, Xue Teng, Jing Mi, Jing Yang, Rongrui Wei, Wenmin Liu, Qinge Ma, Zhenghuai Tan, and Zhipei Sang

Subjects
Alzheimer’s disease, salicylic acid–donepezil–rivastigmine hybrids, multi-functional agent, drug-likeness, scopolamine-induced AD model, Therapeutics. Pharmacology, RM1-950
Abstract

Alzheimer’s disease (AD) is a chronic, progressive brain degenerative disease that is common in the elderly. So far, there is no effective treatment. The multi-target-directed ligands (MTDLs) strategy has been recognised as the most promising approach due to the complexity of the pathogenesis of AD. Herein, novel salicylic acid–donepezil–rivastigmine hybrids were designed and synthesised. The bioactivity results exhibited that 5a was a reversible and selective eqBChE inhibitor (IC50 = 0.53 μM), and the docking provided the possible mechanism. Compound 5a also displayed potential anti-inflammatory effects and significant neuroprotective effect. Moreover, 5a exhibited favourable stabilities in artificial gastrointestinal solution and plasma. Finally, 5a demonstrated potential cognitive improvement in scopolamine-induced cognitive dysfunction. Hence, 5a was a potential multifunctional lead compound against AD.

Published
2023
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21. Object-Agnostic Suction Grasp Affordance Detection in Dense Cluster Using Self-Supervised Learning.docx

Author

Han, Mingshuo, Liu., Wenhai, Pan, Zhenyu, Xue, Teng, Shao, Quanquan, Ma, Jin, and Wang, Weiming

Subjects
Computer Science - Robotics
Abstract

In this paper we study grasp problem in dense cluster, a challenging task in warehouse logistics scenario. By introducing a two-step robust suction affordance detection method, we focus on using vacuum suction pad to clear up a box filled with seen and unseen objects. Two CNN based neural networks are proposed. A Fast Region Estimation Network (FRE-Net) predicts which region contains pickable objects, and a Suction Grasp Point Affordance network (SGPA-Net) determines which point in that region is pickable. So as to enable such two networks, we design a self-supervised learning pipeline to accumulate data, train and test the performance of our method. In both virtual and real environment, within 1500 picks (~5 hours), we reach a picking accuracy of 95% for known objects and 90% for unseen objects with similar geometry features.

Published
2019

23. Bayesian Grasp: Robotic visual stable grasp based on prior tactile knowledge

Author

Xue, Teng, Liu, Wenhai, Han, Mingshuo, Pan, Zhenyu, Ma, Jin, Shao, Quanquan, and Wang, Weiming

Subjects
Computer Science - Robotics
Abstract

Robotic grasp detection is a fundamental capability for intelligent manipulation in unstructured environments. Previous work mainly employed visual and tactile fusion to achieve stable grasp, while, the whole process depending heavily on regrasping, which wastes much time to regulate and evaluate. We propose a novel way to improve robotic grasping: by using learned tactile knowledge, a robot can achieve a stable grasp from an image. First, we construct a prior tactile knowledge learning framework with novel grasp quality metric which is determined by measuring its resistance to external perturbations. Second, we propose a multi-phases Bayesian Grasp architecture to generate stable grasp configurations through a single RGB image based on prior tactile knowledge. Results show that this framework can classify the outcome of grasps with an average accuracy of 86% on known objects and 79% on novel objects. The prior tactile knowledge improves the successful rate of 55% over traditional vision-based strategies., Comment: submitted to ICRA2020

Published
2019

24. Reach on Visual Image Restoration Method for AUV Autonomous Operation: A Survey

Author

Xue, Teng, Zhang, Jing, Zhang, Tianchi, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Yao, Jian, editor, Xiao, Yang, editor, You, Peng, editor, and Sun, Guang, editor

Published
2022
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26. Risk factors of dermatitis during radiation for vulvar carcinoma

Author

Xue Teng, Xian Zhang, Xiaoxu Zhi, Yan Chen, Dejing Xu, Aifeng Meng, and Ying Zhu

Subjects
radiodermatitis, risk factors, vulvar carcinoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Radiodermatitis, inflammatory lesions of skin and mucosa caused by radiation, is a common adverse effect during the radiation therapy of vulvar carcinoma. The incidence of radiodermatitis is affected by various factors, and the purpose of this study was to investigate the risk factors of radiodermatitis in patients with vulvar carcinoma. Patients with vulvar tumors who received radiotherapy from January 2015 to December 2020 were included in this retrospective study. Radiodermatitis was graded according to the grading criteria of the American Center for Radiological Oncology, and then univariate analysis and logistic multivariate regression analysis were used to determine the risk factors of radiodermatitis. A total of 60 eligible patients were enrolled, including 3 (5%), 25 (41.7%), 28 (46.7%), and 4 (6.6%) patients with grade 0, 1, 2, and 3 radiodermatitis, respectively. Univariate analysis showed that the incidence of radiodermatitis was significantly correlated with age, therapeutic strategy, pathological stage and radiotherapy dose (p

Published
2022
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30. Effects of an Chinese Herbal Compound Prescription on Simulated Transport Stress in Mice.

Author

Xiao-Fei Jiang, Wan-Ying Pan, Shu-Xue Teng, and Jian-Feng Cao

Subjects
EFFECT of stress on animals, ENZYME-linked immunosorbent assay, ANIMAL culture, LACTATE dehydrogenase, BLOOD sugar
Abstract

Background: In order to alleviate the transport stress reaction of animals, three kinds of chinese herbs with sedative and tranquilizing properties were extracted with ethanol and proportionally composed into a chinese herbal compound prescription. In addition, isorhynchophylline in leaves of Uncaria rhynchophylla was isolated and purified for use. Methods: The enzyme-linked Immunosorbent assay (ELISA) was used to measure the changes in serum stress indicators and hormone levels, three classification blood cell counter and automatic biochemistry analyser was used to measure blood indicators and other biochemical indicators of each group mice before and after transport stress. Result: The results showed that the blood physiological indexes such as blood glucose (GLU) level, biochemical indexes such as lactate dehydrogenase (LDH) and hormone levels such as adrocorticotropic hormone (ACTH) and other stress indexes were significantly higher in mice after transport than before. The compound agents and isorhynchophylline played a role in regulating the stress indices of mice after the simulating transport processs and have the effect of significantly alleviating the transport stress response in mice, with a view to provide reference for alleviating the adverse effects of transport stress on the animal husbandry industry. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Molecular ligand modulation of palladium nanocatalysts for highly efficient and robust heterogeneous oxidation of cyclohexenone to phenol.

Author

Xue, Teng, Lin, Zhaoyang, Chiu, Chin-Yi, Li, Yongjia, Ruan, Lingyan, Wang, Gongming, Zhao, Zipeng, Lee, Chain, Duan, Xiangfeng, and Huang, Yu

Subjects
ligand, nanocatalyst, palladium nanoparticle, turn-over number
Abstract

Metallic nanoparticles are emerging as an exciting class of heterogeneous catalysts with the potential advantages of exceptional activity, stability, recyclability, and easier separation than homogeneous catalysts. The traditional colloid nanoparticle syntheses usually involve strong surface binding ligands that could passivate the surface active sites and result in poor catalytic activity. The subsequent removal of surface ligands could reactivate the surface but often leads to metal ion leaching and/or severe Ostwald ripening with diminished catalytic activity or poor stability. Molecular ligand engineering represents a powerful strategy for the design of homogeneous molecular catalysts but is insufficiently explored for nanoparticle catalysts to date. We report a systematic investigation on molecular ligand modulation of palladium (Pd) nanoparticle catalysts. Our studies show that β-functional groups of butyric acid ligand on Pd nanoparticles can significantly modulate the catalytic reaction process to modify the catalytic activity and stability for important aerobic reactions. With a β-hydroxybutyric acid ligand, the Pd nanoparticle catalysts exhibit exceptional catalytic activity and stability with an unsaturated turnover number (TON) >3000 for dehydrogenative oxidation of cyclohexenone to phenol, greatly exceeding that of homogeneous Pd(II) catalysts (TON, ~30). This study presents a systematic investigation of molecular ligand modulation of nanoparticle catalysts and could open up a new pathway toward the design and construction of highly efficient and robust heterogeneous catalysts through molecular ligand engineering.

Published
2017

36. Logic Dynamic Movement Primitives for Long-horizon Manipulation Tasks in Dynamic Environments

Author

Zhang, Yan, Xue, Teng, Razmjoo, Amirreza, Calinon, Sylvain, Zhang, Yan, Xue, Teng, Razmjoo, Amirreza, and Calinon, Sylvain

Abstract

Learning from Demonstration (LfD) stands as an efficient framework for imparting human-like skills to robots. Nevertheless, designing an LfD framework capable of seamlessly imitating, generalizing, and reacting to disturbances for long-horizon manipulation tasks in dynamic environments remains a challenge. To tackle this challenge, we present Logic Dynamic Movement Primitives (Logic-DMP), which combines Task and Motion Planning (TAMP) with an optimal control formulation of DMP, allowing us to incorporate motion-level via-point specifications and to handle task-level variations or disturbances in dynamic environments. We conduct a comparative analysis of our proposed approach against several baselines, evaluating its generalization ability and reactivity across three long-horizon manipulation tasks. Our experiment demonstrates the fast generalization and reactivity of Logic-DMP for handling task-level variants and disturbances in long-horizon manipulation tasks., Comment: Submitted to IEEE RA-L for potential publication

Published
2024

37. Engineering Two-Phase Bifunctional Oxygen Electrocatalysts with Tunable and Synergetic Components for Flexible Zn–Air Batteries

Author

Yanli Niu, Xue Teng, Shuaiqi Gong, Mingze Xu, Shi-Gang Sun, and Zuofeng Chen

Subjects
Bifunctional electrocatalysts, Oxygen electrocatalysis, Zn–air battery, Co/CoFe heterointerface engineering, Density functional theory calculations, Technology
Abstract

Abstract Metal–air batteries, like Zn–air batteries (ZABs) are usually suffered from low energy conversion efficiency and poor cyclability caused by the sluggish OER and ORR at the air cathode. Herein, a novel bimetallic Co/CoFe nanomaterial supported on nanoflower-like N-doped graphitic carbon (NC) was prepared through a strategy of coordination construction–cation exchange-pyrolysis and used as a highly efficient bifunctional oxygen electrocatalyst. Experimental characterizations and density functional theory calculations reveal the formation of Co/CoFe heterostructure and synergistic effect between metal layer and NC support, leading to improved electric conductivity, accelerated reaction kinetics, and optimized adsorption energy for intermediates of ORR and OER. The Co/CoFe@NC exhibits high bifunctional activities with a remarkably small potential gap of 0.70 V between the half-wave potential (E 1/2) of ORR and the potential at 10 mA cm‒2 (E j=10) of OER. The aqueous ZAB constructed using this air electrode exhibits a slight voltage loss of only 60 mV after 550-cycle test (360 h, 15 days). A sodium polyacrylate (PANa)-based hydrogel electrolyte was synthesized with strong water-retention capability and high ionic conductivity. The quasi-solid-state ZAB by integrating the Co/CoFe@NC air electrode and PANa hydrogel electrolyte demonstrates excellent mechanical stability and cyclability under different bending states.

Published
2021
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45. Integration of molecular and enzymatic catalysts on graphene for biomimetic generation of antithrombotic species

Author

Xue, Teng, Peng, Bo, Xue, Min, Zhong, Xing, Chiu, Chin-Yi, Yang, Si, Qu, Yongquan, Ruan, Lingyan, Jiang, Shan, Dubin, Sergey, Kaner, Richard B, Zink, Jeffrey I, Meyerhoff, Mark E, Duan, Xiangfeng, and Huang, Yu

Subjects
Biotechnology, Bioengineering, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Arginine, Aspergillus niger, Biomimetic Materials, Catalysis, Fibrinolytic Agents, Fungal Proteins, Glucose, Glucose Oxidase, Graphite, Hemin, Hydrogen Peroxide, Nitrogen Oxides
Abstract

The integration of multiple synergistic catalytic systems can enable the creation of biocompatible enzymatic mimics for cascading reactions under physiologically relevant conditions. Here we report the design of a graphene-haemin-glucose oxidase conjugate as a tandem catalyst, in which graphene functions as a unique support to integrate molecular catalyst haemin and enzymatic catalyst glucose oxidase for biomimetic generation of antithrombotic species. Monomeric haemin can be conjugated with graphene through π-π interactions to function as an effective catalyst for the oxidation of endogenous L-arginine by hydrogen peroxide. Furthermore, glucose oxidase can be covalently linked onto graphene for local generation of hydrogen peroxide through the oxidation of blood glucose. Thus, the integrated graphene-haemin-glucose oxidase catalysts can readily enable the continuous generation of nitroxyl, an antithrombotic species, from physiologically abundant glucose and L-arginine. Finally, we demonstrate that the conjugates can be embedded within polyurethane to create a long-lasting antithrombotic coating for blood-contacting biomedical devices.

Published
2014

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