PUBLICATION
Guo-Wei Wei
PAPERS
(340) Kelin Xia and Guo-Wei Wei, A review of geometric, topological and graph theory apparatuses for the modeling and analysis of biomolecular data (2016) arXiv:1612.01735.
(339)
Duc Nguyen, Kaifu Gao, Jiahui Chen, Rui Wang, and Guo-Wei Wei, Potentially highly potent
drugs for 2019-nCoV,
(2020).
(338) Kaifu Gao, Duc Nguyen, Rui Wang and Guo-Wei Wei, Machine intelligence design of 2019-nCoV drugs, (2020).
(337) Yuta Hozumi, Rui Wang, Guo-Wei Wei, CCP: Correlated Clustering and Projection for Dimensionality Reduction, IEEE Transactions on Pattern Analysis and Machine Intelligence, (2022).
(336) Jian Liu, Dong Chen, and Guo-Wei Wei, Interaction homotopy and interaction homology, (2023).
(335) Jiahui Chen, Rui Wang and Guo-Wei Wei, Review of the mechanisms of SARS-CoV-2 evolution and transmission, Chemical Science (2022).
(334) Jian Jiang, Long Chen, Bozheng Dou, Lu Ke, Yueying Zhu, Jie Liu, Bengong Zhang, Tianshou Zhou, and Guo-Wei Wei, Transformers in Molecular Sciences, (2024).
(333) Gokul Bhusal, Ekaterina Merkurjev, and Guo-Wei Wei, Persistent Laplacian-enhanced Algorithm for Scarcely Labeled Data Classification, Journal of Intelligent Information Systems, (2023).
(332) Li Shen, Hongsong Feng, Funglian Li, Fundchun Lei, Jie Wu, and Guo-Wei Wei, Knot data analysis using multiscale Gauss link integral, (2024).
(331) Li Shen, Jian Liu, and Guo-Wei Wei, Persistent Mayer Homology and Persistent Mayer Laplacian, (2023).
(330) Dong Chen, Jian Liu and Guo-Wei Wei, TopoFormer: Multiscale Topology-enabled Structure-to-Sequence Transformer for Protein-Ligand Interaction Predictions, (2024).
(329) Ben Jones and Guo-Wei Wei, Persistent Directed Flag Laplacians, (2023).
(328) Xiaoqi Wei and Guo-Wei Wei, Persistent topological Laplacians --- A survey, (2023).
(327) Xiaoqi Wei and Guo-Wei Wei, Persistent sheaf Laplacians, Foundation of Data Science, (2021).
(326) Yuta Hozumi and Guo-Wei Wei, Analyzing scRNA-seq data by CCP-assisted UMAP and t-SNE, Plos Computational Biology, (2024).
(325) Sean Cottrell, Yuta Hozumi, and Guo-Wei Wei, K-Nearest-Neighbors Induced Topological PCA for scRNA Sequence Data Analysis, Computers in Biology and Medicine, accepted (2024).
(324) Jiahui Chen, Yongjia Xu, Xin Yang, Zixuan Cang, Weihua Geng, and Guo-Wei Wei, Poisson-Boltzmann based machine learning (PBML) model for electrostatic analysis, Biophysical Journal, published (2024).
(323) Saumya Nigam, Elvira Gjelaj, Rui Wang, Guo-Wei Wei, Ping Wang, Machine learning and deep learning applications in magnetic particle imaging, Journal of Magnetic Resonance Imaging, PMID: 38358090, DOI: 10.1002/jmri.29294 (2024).
(322) Zhe Su, Yiying Tong, and Guo-Wei Wei, Hodge decomposition of single cell RNA velocity, Journal of Chemical Information and Modeling, accepted DOI: 10.1021/acs.jcim.4c00132 (2024).
(321) Hongsong Feng; Sean Cottrell; Yuta Hozumi; Guo-Wei Wei, Multiscale differential geometry learning of networks with applications to single-cell RNA sequencing data, Computers in Biology and Medicine, 171, 108211 (2024).
(320) Yuta Hozumi, Guo-Wei Wei, Analyzing Single Cell RNA Sequencing with Topological Nonnegative Matrix Factorization, Journal of Computational and Applied Mathematics, 445, 115842 (2024).
(319) Jian Liu, Li Shen, and Guo-Wei Wei, ChatGPT for Computational Topology, Foundations of Data Science, 6, 221-250 (2024).
(318) Faisal Suwayyid and Guo-Wei Wei, Persistent Dirac of Paths in Digraphs and Hypergraphs, Foundation of Data Science, 6, 124-153 (2024).
(317) Emily Ribando-Gros, Rui Wang, Jiahui Chen, Yiying Tong, and Guo-Wei Wei, Combinatorial and Hodge Laplacians: Similarity and difference, SIAM Review, accepted (2024).
(316) Hongyan Du, Guo-Wei Wei, and Tingjun Hou, Multiscale Topology in Interactomic Network: From Transcriptome to Antiadiction Drug Repurposing, Briefings in Bioinformatics, 25 (2), bbae054 (2024).
(315) JunJie Wee, Jiahui Chen, Kelin Xia, and Guo-Wei Wei, Integration of persistent Laplacian and pre-trained transformer for protein solubility changes upon mutation, Computers in Biology and Medicine, 169, 107918 (2024).
(314) Sheik Ahmed Ullah, Xin Yang, Ben Jones, Shan Zhao, Weihua Geng, and Guo-Wei Wei, Bridging Eulerian and Lagrangian Poisson-Boltzmann solvers by ESES, Journal of Computational Chemistry, 45, 306-320 (2024).
(313) Sean Cottrell, Rui Wang, and Guo-Wei Wei, PLPCA: Persistent Laplacian-enhanced PCA for Microarray Data Analysis, Journal of Chemical Information and Modeling, 64, 7, 2405–2420 (2024).
(312) Long Chen, Jian Jiang, Bozheng Dou, Hongsong Feng, Jie Liu, Yueying Zhu, Bengong Zhang, Tianshou Zhou, and Guo-Wei Wei, Machine Learning Study of the Extended Drug-target Interaction Network informed by Pain Related Voltage-Gated Sodium Channels, Pain, 165 (4), 306-320 (2024).
(311) Saumya Nigam, Jeotikanta Mohapatra, Ashley V. Makela, Jessi Mercedes Rodriguez, Aixia Sun, Hanaan Hayat, Elizabeth Kenyon, Nathan A. Redman, George Jabin, Bin Gu, Mohamed Ashry, Lorenzo F. Sempere, Jiahui Chen, Guo-Wei Wei, Steven Bolin, Brett Etchebarne, J. Ping Liu, Christopher H. Contag, and Ping Wang, Shape anisotropy-governed high performance nanomagnetosol for in vivo magnetic particle imaging of lungs, Small, 20 (5) 2305300 (2024).
(310) Yuta Hozumi,
Kiyoto, Tanemura, and Guo-Wei Wei, Preprocessing
of single cell RNA sequencing data using Correlated Clustering and Projection,
Journal of Chemical Information and Modeling, 64, 7, 2829–2838 (2024).
(309) Rui Wang, Hongsong Feng, and Guo-Wei Wei, ChatGPT in drug discovery: A case study on anti-cocaine addiction drug development with chatbots, Journal of Chemical Information and Modeling, 63, 22, 7189–7209 (2023).
(308) Feng, Hongsong; Wang, Rui; Zhan, Chang-Guo, and Guo-Wei Wei, Multi-objective Molecular Optimization for Opioid Use Disorder Treatment Using Generative Network Complex, Journal of Medicinal Chemistry, 66, 17, 12479–12498 (2023).
(307) Yuchi Qiu and Guo-Wei Wei, Artificial intelligence-aided protein engineering: from topological data analysis to deep protein language models, Briefings in Bioinformatics, 24 (5) bbad289 (2023).
(306) Jiahui Chen, Daniel R. Woldring, Faqing Huang, Xuefei Huang, and Guo-Wei Wei, Topological deep learning based deep mutational scanning, Computers in Biology and Medicine, 164, 107258 (2023).
(305) Dong Chen, Jian Liu, Jie
Wu, and Guo-Wei Wei, Persistent hyperdigraph
homology and persistent hyperdigraph Laplacians,
Foundation of Data Science, 5, 558-588 (2023).
(304) Bozheng Dou, Zailiang Zhu, Ekaterina Merkurjev, Lu Ke, Long Chen, Jian Jiang, Yueying Zhu, Jie Liu, Bengong Zhang, and Guo-Wei Wei, Machine Learning methods for Small Data Challenges in Molecular Science, Chemical Reviews, 123, 13, 8736–8780 (2023).
(303) Hongsong
Feng, Jian Jiang, and Guo-Wei Wei, Machine-learning Repurposing of DrugBank Compounds for Opioid Use Disorder, Computers
in Biology and Medicine, 160, 106921 (2023).
(302) Li Shen, Hongsong Feng, Yuchi Qiu and Guo-Wei Wei, SVSBI: Sequence-based virtual screening of biomolecular interactions, Communications Biology, 6, 536, (2023).
(301) Dong Chen, Jian Liu, Jie Wu, Guo-Wei Wei, Feng Pan, and Shing-Tung Yau, Path topology in molecular and materials sciences, The Journal of Physical Chemistry Letters, 14, 954-964, (2023).
(300) Hongsong Feng, Rana Elladki, Jian Jiang, and Guo-Wei Wei, Machine-learning Analysis of Opioid Use Disorder Informed by MOR, DOR, KOR, NOR and ZOR-Based Interactome Networks, Computers in Biology and Medicine, 157, 106745 (2023).
(299) Hasaan Hayat, Rui Wang, Aixia Sun, Christiane L. Mallett, Saumya Nigam, Nathan Redman, Demarcus Bunn, Elvira Gjelaj, Nazanin Talebloo, Adam Alessio, Anna Moore, Kurt Zinn, Guo-Wei Wei; Jinda Fan, and Ping Wang, Deep learning-enabled quantification of simultaneous PET/MRI for cell transplantation monitoring, iScience, 26,107083 (2023).
(298) Zailiang Zhu, Bozheng Dou,Yukang Cao, Jian Jiang, Yueying Zhu, Dong Chen, Hongsong Feng, Jie Liu, Bengong Zhang, Tianshou Zhou, Guo-Wei Wei, TIDAL: Topology-Inferred Drug Addiction Learning, Journal of Chemical Information and Modeling, 63, 5, 1472–1489 (2023).
(297) Xiaoqi Wei, Jiehui Chen and Guo-Wei Wei, Persistent topological Laplacian analysis of SARS-Cov-2 variants, Journal of Computational Biophysics and Chemistry, 22, 569-587, (2023).
(296) Yao Zhang, Kaifu Gao, Dexin Sui, Tuo Zhang, Peixuan Yu, Yuhan Jiang, Min Su, Guo-Wei Wei, Jian Hu, Structural insights into the elevator-type transport mechanism of a bacterial ZIP metal transporter, Nature Communication, 14(1), 385 (2023).
(295) Hongsong Feng and Guo-Wei Wei, Virtual screening of DrugBank database for hERG blockers using topological Laplacian-assisted AI models, Computers in Biology and Medicine, 153, 106491 (2023).
(294) Yuchi Qiu and Guo-Wei Wei, Persistent spectral theory-guided protein engineering, Nature Computational Science, 3, 149-163 (2023).
(293) Jiahui Chen, Rui Wang, Yuta Hozumi, Gengzhuo Liu, Yuchi Qiu, Xiaoqi Wei and Guo-Wei Wei, Emerging dominant SARS-CoV-2 variants, Journal of Chemical Information and Modeling, 63, 335–342, (2023).
(292) Nicole Hayes, Ekaterina Merkurjev, and Guo-Wei Wei, Integrating Transformer and Autoencoder Techniques with Spectral Graph Algorithms for the Prediction of Scarcely Labeled Molecular Data, Computers in Biology and Medicine, 153, 106479 (2023).
(291) Ekaterina Merkurjev, Duc Duy Nguyen, and Guo-Wei Wei, Multiscale Laplacian Learning, Applied Intelligence, 53, 15727-15746, (2023).
(290) Rui Wang and Guo-Wei Wei, Persistent path Laplacian, Foundations of Data Science, 5, 26-55, (2023).
(289) Jiahui Chen, Yuchi Qiu, Rui Wang and Guo-Wei Wei, Persistent Laplacian projected Omicron BA.4 and BA.5 to become new dominating variants, Computers in Biology and Medicine, 151, 106262, (2022).
(288) Yuchi Qiu and Guo-Wei Wei, CLADE 2.0: Evolution-driven cluster learning-assisted directed evolution, Journal of Chemical Information and Modeling, 62, 19, 4629–4641 (2022).
(287) Jian Liu, Kelin Xia, Jie Wu, Stephen Yau, and Guo-Wei Wei, Biomolecular Topology: modelling and data analysis. Acta Mathematica Sinica, English Series, 38, 1901-1938 (2022).
(286) Jiahui Chen and Guo-Wei Wei, Artificial intelligence design of mutation-proof COVID-19 antibody therapies, Communications in Information and Systems, 22 (3), 339-361 (2022).
(285) Jiahui Chen and Guo-Wei Wei, Omicron BA.2 (B.1.1.529.2): High potential to becoming the next dominating variant, The Journal of Physical Chemistry Letters, 13, 3840-3849 (2022).
(284) Azzam Alfarraj and Guo-Wei Wei, Geometric algebra generation of molecular surfaces, Journal of the Royal Society Interface, 19 (189), 20220117 (2022).
(283) Kaifu Gao, Rui Wang, Jiahui Chen, Limei Cheng, Jaclyn Frishcosy, Yuta Huzumi, Yuchi Qiu, Tom Schluckbier, Xiaoqi Wei, and Guo-Wei Wei, Methodology-centered review of molecular modeling, simulation, and prediction of SARS-CoV-2, Chemical Reviews, 122, 13, 11287–11368 (2022).
(282) Hongsong Feng, Kaifu Gao, Dong Chen, Li Shen, Alfred J Robison, Edmund Ellsworth and Guo-Wei Wei, Machine learning analysis of cocaine addiction informed by DAT, SERT, and NET-based interactome networks, Journal of Chemical Theory and Computation, 18(4), 2703–2719 (2022).
(281) J Grbić, Jie Wu, Kelin Xia, and Guo-Wei Wei, Aspects of topological approaches for data science, Foundation of Data Science, 4(2), 165-216 (2022).
(280) Rui Wang, Jiahui Chen, Yuta Hozumi, Changchuan Yin, and Guo-Wei Wei, Emerging vaccine-breakthrough SARS-CoV-2 variants, ACS Infectious Diseases, 8, 3, 546–556 (2022).
(279) Jiahui Chen, Rui Wang, Nancy Benovich Gilby, and Guo-Wei Wei, Omicron variant (B.1.1.529): Infectivity, vaccine breakthrough, and antibody resistance, Journal of Chemical Information and Modeling, 62 (2), 412-422 (2022).
(278) Limei Cheng, Yuchi Qiu, Brian J. Schmidt, and Guo-Wei Wei, Review of applications and challenges of quantitative systems pharmacology modeling and machine learning for heart failure, Journal of Pharmacokinetics and Pharmacodynamics, 49, 39-50, (2021).
(277) Yuchi Qiu, Jian Hu, Guo-Wei Wei, Cluster learning-assisted directed evolution, Nature Computational Science, 1(12), 809-818 (2021).
(276) Kaifu Gao, Rui Wang, Jiahui Chen, Jetze Tepe, Faqing Huang, and Guo-Wei Wei, Perspectives of SARS-CoV-2 main protease inhibitors, Journal of Medicinal Chemistry, 64, 16922-16955 (2021).
(275) Dong Chen, Jiaxin Zheng,
Guo-Wei Wei, and Feng Pan, Extracting Predictive Representations from Hundreds
of Millions of Molecules, The Journal of Physical Chemistry Letters, 12, 10793-10801 (2021).
(274) Kaifu Gao, Dong Chen, Alfred
J. Robison, and Guo-Wei Wei, Proteome-informed machine learning studies of
cocaine addiction, The Journal of Physical Chemistry Letters, 12, 11122-11134 (2021).
(273) Jiahui Chen, Weihua Geng, and Guo-Wei Wei, MLIMC: Machine learning-based implicit-solvent Monte Carlo, Chinese Journal of Chemical Physics, 34(6) 683-694 (2021).
(272) Rui Wang, Jiahui Chen, and Guo-Wei Wei, Mechanisms of SARS-CoV-2 evolution revealing vaccine-resistant mutations in Europe and America, The Journal of Physical Chemistry Letters, 12, 11850-11857 (2021).
(271) Qing Zhu, Yuzhe Du, Yoshiko Nomura, Rong Gao, Zixuan Cang, Guo-Wei Wei, Dalia Gordon, Michael Gurevitz, James Groome and Ke Dong, The voltage-sensing module of domain III in an insect sodium channel modulates the action of both α and β toxins, Insect Biochemistry and Molecular Biology, 137, 103625 (2021).
(270) Xiaoqi Wei and Guo-Wei Wei, Homotopy continuation for the spectra of persistent Laplacians, Foundations of Data Science, 3(4) 677-700 (2021).
(269) Jiahui Chen, Kaifu Gao, Rui Wang, and Guo-Wei Wei, Revealing the threat of emerging SARS-CoV-2 mutations to antibody therapies, Journal of Molecular Biology, 433, 167155 (2021).
(268) Rui Wang, Kaifu Gao,
Jiahui Chen, and Guo-Wei Wei, Vaccine-escape and fast-growing mutations in the
United Kingdom, the United States, Singapore, Spain, South Africa, and other
COVID-19-devastated countries, Genomics, 11, 2158-2170 (2021).
(267) Dong Chen, Kaifu Gao, Duc D
Nguyen, Yi Jiang, Guo-Wei Wei, and Feng Pan, Algebraic Graph-assisted
Bidirectional Transformers for Molecular Prediction, Nature Communications, 12,
3527 (2021).
(266) Timothy Szocinski; Duc D Nguyen; Guo-Wei Wei, AweGNN: Auto-parametrized weighted element-specific graph
neural networks, Computers in Biology and Medicine,
134, 104460 (2021).
(265)
Jiahui Chen, Kaifu Gao, Rui Wang, and Guo-Wei Wei, Prediction and mitigation of
mutation threats to COVID-19 vaccines and antibody therapies, Chemical Science, 12, 6929 - 6948 (2021).
(264) Rui Wang, Rundong Zhao, Emily Ribando-Gros, Jiahui Chen, Yiying Tong, and Guo-Wei Wei, HERMES: Persistent spectral graph software, Foundations of Data Science, 3, 67-97 (2021).
(263) Yuta Hozumi, Rui Wang, Changchuan Yin, and Guo-Wei Wei, UMAP-assisted K-means clustering of large-scale SARS-CoV-2 mutation datasets, Computers in Biology and Medicine, 131, 104264 (2021).
(262) Jasiel O. Strubbe-Rivera, Jiahui Chen, Benjamin A. West, Kristin N. Parent, Guo-Wei Wei, Jason N. Bazil, Modeling the effects of calcium overload on mitochondrial ultrastructural remodeling, Applied Sciences, 11, 2071 (2021).
(261) Jian Jiang, Rui Wang and Guo-Wei Wei, GGL-Tox: Geometric graph learning for toxicity prediction, Journal of Chemical Information and Modeling, 61, 1691-1700 (2021).
(260) Rui Wang, Jiahui Chen, Kaifu Gao, Yuta Hozumi, Changchuan Yin, and Guo-Wei Wei, Analysis of SARS-CoV-2 mutations in the United States suggests presence of four substrains and novel variants, Communications Biology, 4, 228 (2021).
(259) Yi Jiang, Dong Chen, Xin Chen,
Guo-Wei Wei
and Feng Pan, Topological representations of crystalline compounds for
the machine-learning prediction of materials properties, npj
Computational Materials, 7(1) 1-8 (2021).
(258) Jiahui Chen, Rui Wang, and Guo-Wei Wei, SARS-CoV-2 becoming more infectious as revealed by algebraic topology and deep learning, Communications in Information and Systems, 21(1), 31-36 (2021).
(257) Jiahui Chen, Kaifu Gao, Rui Wang, Duc Nguyen, and Guo-Wei Wei, Review of COVID-19 antibody therapies, Annual Review of Biophysics, 50, 1-30 (2021). ,
(256) Jiahui Chen, Rundong Zhao, Yiying Tong and Guo-Wei Wei, Evolutionary de Rham-Hodge method, Discrete and Continuous Dynamical Systems Series B, 26, 3785-3821 (2021).
(255) KM Merz Jr, G De Fabritiis, and GW Wei, Generative models for molecular
design, Journal of Chemical Information and Modeling 60 (12), 5635-5636 (2020).
(254) Rui Wang, Jiahui Chen, Yuta Hozumi,
Changchuan Yin, and Guo-Wei Wei, Decoding
Asymptomatic COVID-19 infection and transmission, The Journal of Physical
Chemistry Letters, 11, 10007-10015 (2020).
(253) Duc Duy Nguyen, Kaifu Gao, Jiahui Chen, Rui Wang, and Guo-Wei Wei, Unveiling the molecular mechanism of SARS-CoV-2 main protease inhibition from 137 crystal structures using algebraic topology and deep learning, Chemical Sciences, 11, 12036 - 12046 (2020).
(252) Rui Wang, Yuta Hozumi, Yong-Hui Zheng, Changchuan Yin, and Guo-Wei Wei, Host immune response driving SARS-CoV-2 evolution, Viruses, 12, 1095 (2020).
(251) Rui Wang, Yuta Hozumi, Changchuan Yin, Guo-Wei Wei, Mutations on COVID-19 diagnostic targets, Genomics, 112, 5204-5213 (2020).
(250) Zixuan Cang, Elizabeth Munch, and Guo-Wei Wei, Evolutionary homology on coupled dynamical systems with applications to protein flexibility analysis, Journal of Applied and Computational Topology, 4, 481-507 (2020).
(249) Kaifu Gao, Duc Nguyen, Meihua Tu, and Guo-Wei Wei, Generative network complex for the automated generation of druglike molecules, Journal of Chemical Information and Modeling, 60 5682-5698 (2020).
(248) Ruiqiong
Guo, Zixuan Cang, Jiaqi Yao, M. Kim, Erin Deans, Guo-Wei Wei, Seung-gu Kang, and Heedeok Hong, Structural
cavities are critical to balancing stability and activity of a
membrane-integral enzyme. Proceedings of the National Academy of Sciences, 117 (36), 22146-22156
(2020).
(247) Rundong Zhao, Menglun Wang, Jiahui Chen, Yiying Tong and Guo-Wei Wei, Bulletin of Mathematical Biology, 82, 1-38 (2020).
(246) Jiahui Chen, Rui Wang, Menglun Wang, and Guo-Wei Wei, Mutations strengthened SARS-CoV-2 infectivity, Journal of Molecular Biology, 432, 5212-5226 (2020).
(245) K Gao, DD Nguyen, J Chen, R Wang, GW Wei, Repositioning of 8565 existing drugs for COVID-19. The Journal of Physical Chemistry Letters, 11, 13, 5373–5382 (2020).
(244) Rui Wang, Yuta Hozumi, Changchuan Yin, and Guo-Wei Wei, Decoding SARS-CoV-2 transmission, evolution and ramification on COVID-19 diagnosis, vaccine, and medicine, Journal of Chemical Information and Modeling, 60, 5853-5865 (2020).
(243) Rui Wang, Duc D Nguyen and Guo-Wei Wei, Persistent
spectral graph, International Journal for Numerical Methods in
Biomedical Engineering, 36(9), e3376 (2020).
(242) Duc D. Nguyen and Guo-Wei Wei, Math and AI-based Repositioning of Existing Drugs for COVID-19, SIAM News, 53(4) (2020) https://sinews.siam.org/Details-Page/math-and-ai-based-repositioning-of-existing-drugs-for-covid-19
(241) Xin Chen, Dong Chen, Mouyi Weng, Yi, Jiang, Guo-Wei Wei and Feng Pan, Topology-Based Machine Learning Strategy for Cluster Structure Prediction, The Journal of Physical Chemistry Letters, 11, 11, 4392–4401 (2020).
(240) Zixuan Cang and Guo-Wei
Wei, Persistent cohomology for datasets with
heterogeneous information, SIAM
Journal on Mathematics of Data Science, 2 (2), 396-418 (2020).
(239) Kaifu Gao, Duc Duy Nguyen, Vishnu Sresht, Alan M. Mathiowetz, Meihua Tu, and Guo-Wei Wei, Are 2D fingerprints still valuable for drug discovery? Physical Chemistry Chemical Physics, 2 (16), 8373-8390 (2020).
(238) Jian Jiang, Rui Wang, Menglun Wang, Kaifu Gao, Duc D Nguyen and Guo-Wei Wei, Boosting tree-assisted multitask deep learning for small scientific datasets. Journal of Chemical Information and Modeling, 60 (3), 1235-1244 (2020).
(237) David Bramer and Guo-Wei
Wei, Atom-specific persistent homology and its application to protein
flexibility analysis, Computational and Mathematical Biophysics, 8, 1-35
(2020).
(236) Duc Nguyen, Zixuan Cang, and Guo-Wei Wei, A review
of mathematical representations of biomolecular data, Physical
Chemistry Chemical Physics, 22, 4343-4367 (2020).
(235)
Menglun Wang, Z.
X. Cang, and Guo-Wei Wei, A
topology-based network tree for the prediction of protein-protein binding free
energy changes following mutation, Nature Machine Intelligence, 2, 116-123 (2020).
(234) Duc Duy Nguyen, Kaifu Gao, Menglun Wang, and Guo-Wei Wei, MathDL: Mathematical deep learning for D3R Grand Challenge 4, Journal of Computer Aided Molecular Design, 34, 131-147 (2020).
(233)
Limei Cheng, Guo-Wei Wei and Tarek Leil, Review of
quantitative systems pharmacological modeling of thrombosis, Communications in Information and Systems, 19,
219-240 (2019).
(232)
Christopher Grow, Kaifu Gao, Duc D Nguyen and Guo-Wei Wei, Generative network
complex (GNC) for drug discovery, Communications in Information and Systems, 19, 241-277
(2019).
(231) Rundong Zhao, Mathieu Desbrun, Guo-Wei Wei and Yiying Tong, 3D Hodge Decompositions of Edge- and Face-based Vector Fields, ACM Transactions on Graphics (TOG) 38 (6), 181 (2019).
(230) Guo-Wei Wei, Protein structure prediction beyond AlphaFold, Nature Machine Intelligence, Vol. 1, 336-337, (2019).
(229) Duc D Nguyen and Guo-Wei
Wei, AGL-Score: Algebraic Graph Learning Score for Protein-Ligand Binding
Scoring, Ranking, Docking, and Screening, Journal of Chemical Information and
Modeling, 59, 3291-3304, (2019).
(228) Duc D. Nguyen and Guo-Wei Wei, DG-GL: Differential geometry based geometric learning of molecular datasets, International Journal for Numerical Methods in Biomedical Engineering, 35 (3), e3179 (2019).
(227) Duc Duy Nguyen, Zixuan Cang, Kedi Wu, Menglun Wang, Yin Cao and Guo-Wei Wei, Mathematical deep learning for pose and binding affinity prediction and ranking in D3R Grand Challenges, Journal of Computer Aided Molecular Design, 33, 71-82 (2019).
(226)
David Bramer and G. W. Wei, Blind prediction of protein B-factor and
flexibility, Journal of Chemical Physics, 149, 134107 (2018).
(225) Rundong
Zhao, Menglun Wang, Yiying
Tong and Guo-Wei Wei, A divide-and-conquer strategy for large-scale Eulerian
solvent excluded surface, Communications in Information and Systems,
18, 299-329 (2018).
(224) Rundong
Zhao, Zixuan Cang, Yiying Tong and Guo-Wei Wei, Protein Pocket Detection via Convex Hull Surface Evolution
and Associated Reeb Graph, Bioinformatics, 24 (17), i830-i837 (2018).
(223) Kedi Wu, Zhixiong Zhao, Renxiao Wang and Guo-Wei Wei,
TopP–S: Persistent Homology-Based Multi-Task Deep
Neural Networks for Simultaneous Predictions of Partition Coefficient and
Aqueous Solubility, Journal of
Computational Chemistry, 39, 1444-1454 (2018).
(222) Kedi Wu and Guo-Wei Wei,
Quantitative toxicity prediction using topology based multi-task deep neural networks, Journal of
Chemical Information and Modeling, 58,
520-531 (2018).
(221) David Bramer and G. W. Wei, Multiscale weighted colored graphs for protein flexibility and rigidity analysis, Journal of Chemical Physics, 148, 054103 (2018). (This work was featured in AIP Scilight)
(220) Ahmet Erdemir, Peter J.
Hunter, Gerhard A. Holzapfel, Leslie M. Loew, John Middleton, Christopher R.
Jacobs, Perumal Nithiarasu, Rainlad
Löhner, Guowei Wei , Beth A. Winkelstein, Victor H.
Barocas
, Farshid Guilak ,
Joy P. Ku, Jennifer L. Hicks ,
Scott L. Delp, Michael Sacks ,
Jeffrey A. Weiss
, Gerard A. Ateshian, Steven A. Maas, and Andrew D. McCulloch, Perspectives on Sharing Models and Related
Resources in Computational Biomechanics Research, Journal of Biomechanical
Engineering, 140, 024701, (2018).
(219) Z. X. Cang, Lin Mu and Guo-Wei Wei, Representability
of algebraic topology for biomolecules in machine learning based scoring and
virtual screening,
PLOS Computational Biology,
14(1), e100592 (2018).
(218) Yuri A. Nedialkov, Kristopher Opron, Hailey L. Caudill1, Fadi Assaf, Amanda J. Anderson,
Robert I. Cukier, Guo-Wei Wei and Zachary F. Burton, Hinge action versus grip in
translocation by RNA polymerase, Transcription, 9,1-16 (2018)
(217) Elizabeth Jurrus,
Dave Engel, Keith Star, Kyle Monson, Juan Brandi, Lisa E Felberg, David H
Brookes, Leighton Wilson, Jiahui Chen, Karina Liles, Minju
Chun, Peter Li, Todd Dolinsky, Robert Konecny, David R Koes, Jens Erik Nielsen,
Teresa Head-Gordon, Weihua Geng, Robert Krasny, Guo-Wei Wei, Michael J Holst, J
Andrew McCammon, and Nathan A Baker,
Improvements to the APBS biomolecular solvation software suite, Protein Science, 27, 112-128 (2018)
(216)
Bao Wang, Chengzhang Wang, Kedi Wu and Guo-Wei Wei, Breaking
the polar-nonpolar division in solvation free energy prediction, Journal of Computational
Chemistry, 39, 217–232 (2018).
(215) Z. X. Cang and
Guo-Wei Wei, Integration of element specific persistent homology and machine
learning for protein-ligand binding affinity prediction, International
Journal for Numerical Methods in Biomedical Engineering, 34 (2), e2914 (2018).
(214) Guo-Wei Wei, Mathematics at the eve of a
historic transition in biology, Molecular Based Mathematical Biology, 5, 138-141 (2017).
(213) Guo-Wei Wei, Persistent homology
analysis of biomolecular data, SIAM News, 50 (10) December (2017).
(212) Z. X. Cang and
Guo-Wei Wei, TopologyNet: Topology based deep convolutional and multi-task
neural networks for biomolecular property predictions
, PLOS Computational Biology,
13(7), e1005690 (2017).
(211) Z. X. Cang and
Guo-Wei Wei, Element specific persistent homology for the analysis and
prediction of protein folding stability upon mutation, Bioinformatics, 33, 3549-3557 (2017).
(210) Duc D Nguyen, Tian Xiao, Menglun Wang and Guo-Wei Wei, Rigidity
strengthening: A mechanism for
protein-ligand binding, Journal of Chemical Information and Modeling,
57, 1715-1721 (2017).
(209)
Bao Wang, Zhixiong Zhao, Duc Nguyen and Guo-Wei Wei,
Feature functional theory - binding predictor (FFT-BP) for the blind prediction
of binding free energy, Theoretical Chemistry Account, 136, 55 (2017).
(208)
Yin Cao, Bao Wang, Kelin Xia and Guo-Wei Wei, Finite volume formulation of the
MIB method for elliptic interface problems, Journal of Computational and Applied Mathematics, 321, 60-77
(2017).
(207)
Duc D Nguyen, Bao Wang and Guo-Wei Wei, Accurate, robust and reliable
calculations of Poisson-Boltzmann binding energies, Journal of Computational Chemistry, 38, 941-948 (2017).
(206)
Duan Chen and Guo-Wei Wei, A Review of Mathematical Modeling, Simulation and Analysis of
Membrane Channel Charge Transport, Reference Module in Life Sciences, https://doi.org/10.1016/B978-0-12-809633-8.12044-8
(2017).
(205) Yongcheng Zhou and Guo-Wei Wei, Variational Methods for Biomolecular Modeling, in
Variational Methods in Molecular Modeling, Edited by Jianzhong Wu, Springer Science+Business Media Singapore, 181-221, (2017).
(204) Beibei Liu, Bao Wang, Rundong Zhao, Yiying Tong and
Guo-Wei Wei, ESES: software for Eulerian
solvent excluded surface, Journal
of Computational Chemistry, 38, 446-466 (2017).
(203) Lin Mu, Kelin Xia and
Guo-Wei Wei, Geometric and
electrostatic modeling using molecular rigidity functions, Journal of Computational and Applied Mathematics, 313, 18-37 (2017).
(202) Duc D Nguyen and Guo-Wei Wei, The impact
of surface area, volume, curvature and Lennard-Jones potential to solvation
modeling, Journal of Computational Chemistry, 38, 24–36 (2017).
(200) Guo-Wei Wei, Mathematical
Molecular Bioscience and Biophysics, SIAM News, 49 (7), (2016).
(199) Bao Wang, Zhixiong Zhao and Guo-Wei Wei, Automatic parametrization of
non-polar implicit solvent models for the blind prediction of solvation free
energies, Journal of Chemical Physics, 145, 124110 (2016).
(198)
Duc D Nguyen, Kelin Xia and Guo-Wei Wei, Generalized flexibility-rigidity
index, Journal of Chemical Physics, 144, 234106 (2016).
(197) Kristopher Opron,
Kelin Xia, Zachary F. Burton and Guo-Wei
Wei, Flexibility-Rigidity Index for
Protein-Nucleic Acid Flexibility and Fluctuation Analysis,
Journal of Computational Chemistry, 37, 1283–1295 (2016).
(196)
Zachary F. Burton, Kristopher Opron, Guowei Wei and James H. Geiger,
A model for genesis of transcription systems,
Transcription, 7, 1-13 (2016).
(195)
Bao Wang and Guo-Wei Wei, Object-oriented persistent
homology, Journal of Computational
Physics, 305, 276-299 (2016).
(194)
Zixuan Cang, Lin Mu, Kedi Wu, Kris Opron, Kelin Xia
and Guo-Wei Wei, A topological approach to protein classification, Molecular
based Mathematical Biology, 3, 140-162 (2015)
(193)
Kelin Xia, Kristopher Opron and Guo-Wei Wei,
Multiscale Gaussian network model (mGNM) and
multiscale anisotropic network model (mANM), Journal
of Chemical Physics, 143, 204106 (2015).
(192)
Bao Wang and Guo-Wei Wei, Parameter
optimization in differential geometry based solvation models, Journal of
Chemical Physics, 143,
134119 (2015).
(191) Kelin Xia, Zhixiong Zhao
and Guo-Wei Wei, Multiresolution persistent homology for
excessively large biomolecular datasets, Journal of Chemical Physics, 143,
134103 (2015).
(190)
Kristopher Opron, Kelin Xia, and Guo-Wei Wei,
Communication: Capturing protein multiscale thermal fluctuations, Journal of
Chemical Physics, 142,
211101 (2015).
(189) Jinkyoung Park, Kelin Xia and G.W. Wei, Atomic scale design and
three-dimensional simulations of nanofluidic systems, Microfluidics and Nanofluidics, 19, 665-692 (2015).
(188) Kelin Xia and
Guo-Wei Wei, Multidimensional
persistence in biomolecular data, Journal of Computational
Chemistry, 36, 1502-1520 (2015).
(187) Kelin Xia, Zhixiong Zhao
and Guo-Wei Wei, Multiresolution topological simplification, Journal of Computational
Biology, 22, 9, 1-5 (2015).
(186)
Bao Wang, Kelin Xia
and Guo-Wei Wei,
Matched interface and boundary method for 3D elastic interface problems, Journal
of Computational Physics,
294, 405-438 (2015).
(185) Kelin Xia and
Guo-Wei Wei, Persistent topology for cryo-EM data
analysis, International Journal
for Numerical Methods
in Biomedical Engineering, 31, e02719 (2015).
(184) Langhua Hu, Duan
Chen and Guo-Wei
Wei, Geometric and
phonon effects on
nano transistors, Journal
of Computational Physics,
290, 169-187 (2015).
(183)
Bao Wang, Kelin Xia
and Guo-Wei Wei,
Matched interface and boundary method for irregular elastic interface
problems, Journal of Computational and Applied Mathematics, 285, 203-225
(2015).
(182) Kelin Xia, X. Feng, Yiying Tong
and Guo-Wei Wei,
Persistent homology for the quantitative
prediction of fullerene stability, Journal of Computational Chemistry, 36,
408-422 (2015).
(181) Langhua Hu, Siyang
Yang and Guo-Wei Wei,
Simulation of inviscid compressible flows using PDE transform. Commun. Comput. Phys., 16, 1201-1238 (2014).
(180) Kelin Xia and Guo-Wei
Wei, A Galerkin
formulation of the MIB method for three dimensional elliptic interface
problems, Computers and Mathematics with
Applications, 68, 719–745, (2014).
(179) Kelin Xia,
Meng Zhan, and
Guo-Wei Wei, MIB Galerkin method for
elliptic interface problems,
Journal of Computational and Applied Mathematics, 272. 195-220 (2014).
(178) Kelin Xia and
Guo-Wei Wei, Persistent homology analysis of protein structure, flexibility
and folding, International Journal
for Numerical Methods
in Biomedical Engineering, 30, 814-844 (2014).
(177)
Kristopher Opron, Kelin Xia, and Guo-Wei Wei, Fast
and anisotropic flexibility-rigidity index for protein flexibility and
fluctuation analysis, Journal of Chemical Physics, 140(23), (2014).
(176)
Kelin Xia and Guo-Wei Wei, Molecular nonlinear dynamics and protein thermal
uncertainty quantification, Chaos, 24, 013103 (2014).
(175)
Shan Zhao and
Guo-Wei Wei, A
unified discontinuous Galerkin framework
for time integration, Mathematical Methods in the
Applied Sciences, 37, 1042-1071 (2014).
(174) Kelin Xia,
Xin Feng, Zhan Chen, Yiying Tong
and Guo-Wei Wei,
Multiscale geometric modeling of
macromolecules I: Cartesian
representation, Journal of Computational Physics, 257, 912-936 (2014).
(173) Kelin Xia, and Guo-Wei Wei, A stochastic
model for protein flexibility analysis, Physical Review E, 88, 062709 (2013).
(172) X. Feng, Kelin
Xia, Zhan Chen, Yiying Tong
and Guo-Wei Wei, Multiscale geometric modeling of macromolecules II: Lagrangian representation, Journal of Computational
Chemistry, 34, 2100-2120 (2013).
(171) Kelin
Xia, Kristopher Opron and Guo-Wei Wei, Multiscale multiphysics and multidomain models — Flexibility and
rigidity, Journal of Chemical Physics, 139, 194109 (2013).
(170) L. Mu, J. P. Wang, G. W. Wei, X. Ye and S.
Zhao, Weak Galerkin methods
for second order
elliptic interface problems, Journal of
Computational Physics, 250, 106-125 (2013).
(169) Michael Daily, Jaehun
Chun, Alejandro Heredia-Langner, Guo-Wei Wei, and Nathan Baker, Origin of parameter degeneracy and
molecular shape relationships in geometric-flow calculations of solvation free
energies. Journal of Chemical Physics, 139, 204108 (2013).
(168)
Guo-Wei Wei, Multiscale multiphysics and multidomain
models I: Basic theory, Journal of Theoretical and Computational Chemistry,
12(8), 1341006 (2013)
(167) Jinkyoung Park and G.W. Wei, A molecular level prototype for
mechanoelectrical transducers
in mammalian hair cells, Journal of Computational
Neuroscience, 35, 231-241, (2013).
(166) Dennis G. Thomas, Jaehun Chun, Zhan Chen, Guo-Wei Wei, Nathan
A. Baker, Parameterization of a geometric flow implicit solvation model,
Journal of Computational
Chemistry, 24, 687-695 (2013)
(165) Emil Alexov and
Guo-Wei Wei, Preface: Special issue on modeling electrostatics in molecular biology (MEMB), Commun.
Comput. Phys., 13(1) 1-5, (2013).
(164) Duan Chen and
Guo-Wei Wei, Quantum
dynamics in continuum
models for proton
transport I: Basic
formulation, Communication in
Computational Physics, 13,
285-324 (2013)
(163) Langhua Hu, Duan
Chen and Guo-Wei
Wei, High-order fractional
partial differential equations
for molecular surface construction,
Molecular Based Mathematical
Biology, 1-25 (2012).
(162)
X. Feng, Kelin
Xia, Yiying Tong
and Guo-Wei Wei,
Geometric modeling of
organelles, subcellular structures
and multiprotein complexes,
International Journal for
Numerical Methods in
Biomedical Engineering, 28,
1198-1223 (2012).
(161) Zhan Chen, Shan
Zhao, Jaehun Chun, Dennis G. Thomas, Nathan Baker,
Peter Bates and
Guo-Wei Wei, Variational
approach for nonpolar
solvation analysis, Journal of
Chemical Physics, 137,
084101 (2012).
(160) Anita T. Layton and Guo-Wei Wei, Editorials: Interface methods for biological and biomedical problems, International Journal for Numerical Methods in Biomedical Engineering, 28, 289–290, (2012)
(159) Duan Chen
and Guo-Wei Wei,
Quantum dynamics in
continuum models for
proton transport ---
Generalized correlation, Journal
of Chemical Physics, 136, 134109
(2012)
(158) Guo-Wei
Wei, Qiong
Zheng, Zhan Chen,
and Kelin Xia, Variational multiscale models
for charge transport, SIAM Review. 54(4), 699-754 (2012).
(157) Yang Wang, Guo-Wei
Wei and Siyang Yang,
Selective extraction of
entangled textures via
adaptive PDE transform,
Int. J. Biomed
Imaging, Volume 2012 (2012), Article ID 958142 (2012).
(156) Langhua Hu
and Guo-Wei Wei,
Nonlinear Poisson equation
for heterogeneous media.
Biophysical Journal,
103, 758–766 (2012).
(155) Duan Chen, Zhan
Chen and Guo-Wei
Wei, Quantum dynamics
in continuum models
for proton transport
II: Variational solvent-solute interface, International Journal
for Numerical Methods
in Biomedical Engineering,
28, 25-51 (2012)
(154) Qiong Zheng, Siyang Yang
and Guo-Wei Wei,
Molecular surface generation using
PDE transform. International Journal for
Numerical Methods in
Biomedical Engineering, 28, 291-316 (2012)
(153) Yang Wang, Guo-Wei
Wei and Siyang Yang,
Model decomposing evolution
equations, Journal of
Scientific Computing, 50, 495-518 (2012).
(152) Yang
Wang, Guo-Wei
Wei and Siyang Yang,
Empirical model decomposition using
local spectral evolution
kernels, Journal of
Scientific Computing, 50, 629-664
(2012).
(151) Kelin Xia,
Meng Zhan, Decheng Wan
and Guo-Wei Wei,
Adaptively deformed mesh
based matched interface
and boundary (MIB)
method for elliptic
interface problems, Journal
of Computational Physics, 231, 1440–1461 (2012).
(150) Zhan
Chen and G.
W. Wei, Differential
geometry based salvation
model III: Quantum
formulation, Journal of
Chemical Physics, 135,
194108 (2011).
(149) Qiong Zheng and
Guo-Wei Wei, Poisson-Boltzmann-Nernst-Planck model.
Journal of Chemical
Physics, 134 (19),
194101, (2011) (It was
the most downloaded
in JCP in
May 2011)
(148) Kelin Xia,
Meng Zhan and
Guo-Wei Wei, The
matched interface and
boundary (MIB) method
for multi-domain elliptic
interface problems. Journal of
Computational Physics, 230,
8231–8258 (2011)
(147) Yang Wang, Guo-Wei
Wei and Siyang Yang,
Partial differential equation
transform --- variational
formulation and Fourier
analysis , International Journal
for Numerical Methods
in Biomedical Engineering, 27,
1996-2020, (2011).
(146) Qiong Zheng, Duan
Chen and Guo-Wei
Wei, Second-order Poisson-Nernst-Planck solver
for ion transport.
Journal of Computational Physics,
230, 5239-5262 (2011)
(145)
Zhan Chen, Nathan
Baker and G.
W. Wei, Differential
geometry based salvation
model II: Lagrangian formulation
(62 pages), Journal
of Mathematical Biology, 63,
1139–1200,
(2011).
(144) Weihua Geng
and G.W. Wei, Multiscale
molecular dynamics via
the matched interface
and boundary (MIB)
method, Journal of
Computational Physics, 230,
435-457 (2011).
(143) Duan Chen, Zhan
Chen, Changjun Chen,
Weihua Geng and
Guo-Wei Wei, MIBPB:
A software package
for electrostatic analysis,
Journal of Computational Chemistry, 32,
756–770 (2011).
(142) G.
W. Wei, Lalita Udpa, Yang Wang
and Shan Zhao,
Editorial: Mathematical methods
for images and surfaces, International Journal
of Biomedical Imaging,
Volume 2010, Article
ID 918467, 3
pages (2010).
(141) Zhan
Chen, Nathan
Baker and G.
W. Wei, Differential
geometry based solvation
model I: Eulerian
formulation, Journal of
Computational Physics, 229,
8231-8258 (2010).
(140) Duan Chen
and Guo-Wei Wei,
Modeling and simulation of
nano-electronic devices, Journal
of Computational Physics,
229, 4431-4460, (2010).
(139) Changjun Chen, Rishu
Saxena, and Guo-Wei
Wei, Differential geometry
based multiscale model
for virus capsid
dynamics, Int. J.
Biomed Imaging, Volume
2010, Article ID
308627, 9 pages
(2010).
(138) Guo-Wei, Wei, Differential geometry
based multiscale models,
Bulletin of Mathematical Biology, volume
72, 1562-1622, (2010).
(137) C.H.W.
Ng, Y.B. Zhao, Y. Xiang and
G.W. Wei, On
the accuracy and
stability of a
few differential quadrature formulations for
the vibration analysis
of beams, Int.
J. Engng. Applied
Sci. 1 (4),
1-25 (2009).
(136) G.W. Wei and G. Wang, Editorial:
Special issue on
recent advances in
computational techniques for
biomedical imaging, Commun. Numer. Methods Engng, 25,
581-582 (2009)
(135) P. Bates, Z. Chen, Y.H.
Sun, G.W. Wei and
S. Zhao, Geometric
and potential driving
formation and evolution
of biomolecular surfaces,
J. Math. Biol. 59, 193-231 (2009)
(134) Shan Zhao
and G.W. Wei, Matched interface
and boundary (MIB)
for the implementation of
boundary conditions in
high order central
finite differences, Int.
J. Numer.
Meth. Engng. 77, 1690-1730 (2009)
(133) Duan Chen,
G.W. Wei, X.
Cong and Ge
Wang, Computational methods
for optical molecular
imaging, Commun. Numer. Methods Engng, 25,
1137-1161(2008).
(132) S.N. Yu, Y. Xiang and G.W. Wei, Matched
interface and boundary
(MIB) method for
the vibration analysis
of plates, Commun. Numer. Methods Engng, 25,
923-950 (2009).
(131) S.N. Yu and G.W. Wei, Three dimensional
matched interface and
boundary (MIB) method
for geometric singularities, J. Comput. Phys. 227, 602-632 (2007).
(130) W.H. Geng, S.N. Yu and
G.W. Wei, Treatment of
charge singularities in
implicit solvent models,
J. Chem. Phys., 127,
114106 (20 pages)
(2007). Also available at
the Virtual Journal
of Biological Physics
Research October 1,
2007
(129) P. Bates, G.W. Wei and
S. Zhao, Minimal molecular
surfaces and their
applications, J. Comput. Chem., 29,
380-391 (2008).
(128) S.
N. Yu, W.
H. Geng and
G.W. Wei, Treatment of
geometric singularities in
implicit solvent models,
J. Chem. Phys., 126,
244108 (13 pages)
(2007). Also available at
the Virtual Journal
of Biological Physics
Research July 1,
2007.
(127) Y.C. Zhou, M. Feig and
G.W. Wei, Highly
accurate biomolecular electrostatics in
continuum dielectric environments, J. Comput. Chem. 29, 87-97 (2008).
(126) G.W. Wei and S. Zhao, On
the validity of
``A proof that
the discrete singular
convolution (DSC)/Langrange-distributed
approximation function (LDAF)
method is inferior
to high order
finite differences '',
J. Comput. Phys., 226,
2389-2392 (2007).
(125) S.
N. Yu, Y.
C. Zhou and
G. W. Wei, Matched
interface and boundary
(MIB) method for
elliptic problems with
sharp-edged interfaces, J. Comput. Phys. 224, 729-756 (2007).
(124) G.W. Wei, Editoral: Recent
advances in mathematical
methods for the
analysis of biomedical
image, International Journal
of Biomedical Imaging,
vol. 2006, 70578,
1, (2006).
(123) S.F. Shieh, Y.Q. Wang , G.W.
Wei and C.-H. Lai, Mathematical analysis
of the wavelet
method of chaos
control, J. Math.
Phys., 47, 082701
(2006).
(122) Y.C. Zhou and G.W. Wei, On the
fictitious-domain and interpolation formulations of
the matched interface and
boundary (MIB) method,
J. Comput. Phys.
219, 228-246 (2006).
(121) Ge Wang,
Haiou
Shen Wenxiang Cong,
Shan Zhao and
G.W. Wei, Temperature modulated
bioluminescence
tomography, Optics Express,
14 (17) 7852-7871
(2006).
(120) L. Zhang, Y. Xiang and
G.W. Wei, Local adaptive
differential quadrature for
free vibration analysis
of cylindrical shells
with various boundary
conditions, International Journal
of Mechanical Sciences,
48, 1126-1138 (2006).
(119) Y.H. Sun, P.R. Wu, G.W.
Wei and G. Wang, Evolution operator
based single-step method
for image processing,
Int. J. Biomed.
Imaging, 83847, 1-27
(2006).
(118) Y.H. Sun, Y.C. Zhou, S.
G. Li and
G.W. Wei, A
windowed Fourier spectral
scheme for hyperbolic conservation laws,
J. Comput. Phys. ,
214, 466-490 (2006).
(117) Y.C. Zhou, S. Zhao, M.
Feig and G.
W. Wei, High
order matched interface
and boundary (MIB)
schemes for elliptic
equations with discontinuous coefficients
and singular sources,
J. Comput. Phys. ,
213, 1-30, (2006).
(116) C.W.
Lim, Z.R. Li, Y.
Xiang, G.W. Wei and
C.M. Wang, On
the missing modes
when using the
exact frequency relationship between
Kirchhoff and Mindlin
plates, Advances in
Vibration Engineering, 4,
221-248, (2005).
(115) Y.-C. Lai, Z. Liu, G.-W.
Wei, C. H. Lai, Reply
to ``Comment on `Shadowability
of statistical averages
in chaotic systems''', Physical
Review Letters, 94,
219403 (2005).
(114) S.G.
Guan, C.H. Lai and
G.W. Wei, Phase
synchronization between two
essentially different chaotic
systems, Phys. Rev. E , 72,
016205 (2005).
(113) S.G.
Guan, C.H. Lai and
G.W. Wei, Bistable chaos
without symmetry in
generalized
synchronization, Phys. Rev. E , 71,
036209 (2005).
(112) S.N. Yu, S. Zhao
and G.W. Wei, Local
spectral time splitting
method for first
and second order
partial differential equations, J.
Comput.
Phys., 206, 727-780
(2005).
(111) S. Zhao, G.W. Wei and
Y. Xiang, DSC
analysis of free-edged
beams by an
iteratively matched boundary
method, J. Sound Vibr., 284,
487-493 (2005).
(110) S. Zhao and G.W. Wei, Option valuation
by using discrete
singular convolution, Appl.
Math. Comput., 167,
383-418 (2005).
(109) C.W. Lim, Z.R. Li and
G.W. Wei, DSC-Ritz method
for the high
frequency mode analysis
of thick shallow
shells, Int. J. Numer. Meth. Engng., 62,
205-232 (2005).
(108) Y.S. Hou, G.W. Wei and
Y. Xiang, DSC-Ritz method
for the vibration
analysis of Mindlin
plates, Int. J.
Numer.
Meth. Engng., 62,
262-288 (2005).
(107) S. Zhao and G.W. Wei, Tensor product
derivative matching for
wave propagation in
inhomogeneous media, Microwave
Optical Techn. Lett., 43(1),
69-77 (2004).
(106) S. Guan, G.W. Wei and
C.H. Lai, Controllability of
flow turbulence, Phys.
Rev. E, 69,
066214 (2004).
(105) S. Zhao and G.W. Wei, High order
FDTD methods via
derivative matching for
Maxwell's equations with
material interfaces, J. Comput.
Phys., 200, 60-103,
(2004).
(104) C.H.W.
Ng, Y.B. Zhao and
G.W. Wei, Comparison of
the DSC and
GDQ methods for
the vibration analysis
of plates, Comput. Methods Appl. Mech.
Engng., 193,
2483-2506 (2004).
(103) G. Bao, G.W. Wei, and
S. Zhao, Numerical solution
of the Helmholtz
equation with high
wave numbers, Int.
J. Numer.
Meth. Engng., 59,
389-408 (2004).
(102) Y.
Xiang and G.W.
Wei, Exact solution
for buckling and
vibration of stepped
rectangular Mindlin plates,
Int. J. Solid
Struct. , 41,
279-294 (2004).
(101) M. Zhan, X. Wang, X. Gong, G.W. Wei, and C.-H.
Lai, Complete synchronization and
generalized
synchronization of one
-way coupled time-delayed
systems, Phys. Rev. E, 68,
036208 (2003).
(100) S. Guan, C.-H. Lai and
G.W. Wei, A
new wavelet method
for characterizing turbulence,
Comput.
Phys. Commun. 155, 77-91
(2003).
(99) Ying Wang,
Y.B. Zhao and
G.W. Wei, A
note on the
numerical solution of
high-order differential equations,
J. Comput. Appl.
Math., 159, 387-398
(2003).
(98) W.Z.
Bao, F.F. Sun and G.W.
Wei, Numerical methods
for the generalized
Zakharov system, J.
Comput.
Phys., 190, 201-228
(2003).
(97) Z.H. Shao , G.W.
Wei and S.
Zhao, DSC time-domain
solution of Maxwell's
equations, J. Comput. Phys., 189,
427-453 (2003).
(96) Y.C. Zhou and G.W. Wei, High-resolution conjugate
filters for the
simulation of flows,
J. Comput. Phys., 189,
150-179 (2003).
(95) S. Zhao and G.W. Wei, Comparison of
the discrete singular
convolution and three
other numerical schemes
for Fisher's equation,
SIAM J. Sci.
Comput.,25, 127-147 (2003).
(94) G. Bao, G.W. Wei and
S. Zhao, Local
spectral time-domain method
for electromagnetic wave
propagation, Optics Letters,
28, 513-515 (2003).
(93) Z.
H. Shao, Z. Shen, Q. He and
G.W. Wei, A
generalized higher-order finite
difference time domain
method and its
application in guided-wave
problems, IEEE T. Microwave Theory Tech.,
51, 856-861 (2003).
(92) Y.C. Zhou, Y. Gu and G.W. Wei, Shock-capturing with
natural high frequency
oscillations, Int. J. Numer. Methods in Fluid,
41, 1319-1338 (2003).
(91) Y. Gu, Y.C. Zhou and
G.W. Wei, Conjugate filters
with spectral-like resolution
for 2D incompressible flows,
Computers and Fluids,
33, 777-794 (2003).
(90) S. Guan, Y.C. Zhou, G.W.
Wei and C.-H. Lai, Controlling
flow turbulence, Chaos,
13, 64-70 (2003).
(89) S. Guan, C.-H. Lai and
G.W. Wei, On
geometry and boundary
control of pattern
formation and competition, Physica D,
176, 19-43 (2003).
(88) Y.
Gu and G.W.
Wei, Conjugated
filter approach for
shock capturing, Commun. Numer. Meth.
Engng., 19,
99-110 (2003).
(87) Y.C. Zhou, B. S.
V. Patnaik, D.C.
Wan and G.
W. Wei, DSC
solution for flow
in a staggered
double lid driven
cavity, Int. J. Numer. Methods in Engng. ,57, 211-234 (2003).
(86) S. Zhao and G.W. Wei, Jump
process analysis for
the trend estimation
of time series,
Comput.
Statist. Data Anal., 42,
219-241 (2003).
(85) G.W. Wei, M. Zhan, and
C.-H. Lai, Tailoring wavelets
for chaos control,
Phys. Rev. Lett. 89, 284103 (2002).
This work was highlighted
in Physical Review
Letters and featured
in Nature.
(84) G. W.
Wei and Y.
Q. Jia, Synchronization based
image edge detection,
Europhys.
Lett. 59, 814-819 (2002).
(83) Y.-C.
Lai, Z.H. Liu, G.W. Wei, and
C.-H. Lai, Shadowing of
statistical averages in
chaotic systems, Phys.
Rev. Lett .
89, 184101 (2002).
(82) M. Zhan, G.W. Wei, C.-H.
Lai, Y.-C. Lai and
Z.H. Liu, Coherent
resonance near Hopf
bifurcation from chaos,
Phys. Rev. E 66,
036201 (2002).
(81) G.W. Wei, and Y. Gu, Conjugated filter
approach for solving
Burger's equation, J. Comput. Appl. Math., 149,
439-456 (2002).
(80) Y. Xiang, Y.B. Zhao and
G.W. Wei, Closed
form solutions for
vibration of multi-span
rectangular plates, Int.
J. Mech. Sci. ,
44, 1195-1218 (2002).
(79) D.C. Wan, B.S.V. Patnaik
and G.W. Wei, Discrete
singular convolution-finite subdomain
method for the
solution of incompressible viscous
flows, J. Comput. Phys.
180, 229-255 (2002).
(78) Y.
Xiang and G.W.
Wei, Exact
solutions for the
vibration of multi-span
rectangular Mindlin plates,
Journal of Vibration
and Acoustics, Trans.
ASME, 124, 545-551
(2002).
(77) G.W. Wei, Oscillation
reduction by anisotropic
diffusions, Comput. Phys.
Commun. , 144
, 417-342 (2002).
(76) G.W. Wei, Y.B. Zhao, and
Y. Xiang, A
novel approach for
the analysis of
high frequency vibrations,
J. Sound and
Vibration , 257,
207-246 (2002).
(75) Y.B. Zhao and G.W. Wei, DSC
analysis rectangular plates
with nonuniform boundary
conditions, J. Sound and
Vibration, 255, 203-225
(2002).
(74) G.W. Wei and S. Zhao, Synchronization and
information processing by
an on-off coupling,
Phys. Rev. E, 65,
056210 (2002).
(73) Y. Xiang, Y.B. Zhao and
G.W. Wei, Discrete
singular convolution and
its application to
the analysis of
plates with internal
supports. II Complex supports,
Int. J. Numer. Methods Engng. ,
55, 947-971 (2002).
(72) G.W. Wei, Y.B. Zhao and
Y. Xiang, Discrete
singular convolution and
its application to
the analysis of
plates with internal
supports, I Theory
and algorithm, Int.
J. Numer. Methods Engng. ,
55, 913-946 (2002).
(71) B.F.
Feng and G.W. Wei, A
comparison of the
spectral and the
discrete singular convolution
schemes for the KdV-type
equations, J. Comput. Appl.
Math. , 145,
183-188 (2002).
(70) Z.J. Hou and G.W. Wei, A
new approach for
edge detection, Pattern
Recognition, 35(7) ,
1559-1570 (2002).
(69) B.
S. V. Patnaik and
G.W. Wei, Controlling wake turbulence [Phys.
Rev. Lett. 88, 054502
(2002)], Phys. Rev. Lett. , 88,
127901 (2002).
(68) Y.B. Zhao, G.W. Wei, and
Y. Xiang, Plate
vibration under irregular
internal supports, Int.
J. Solids and
Structures, 39, 1361-1383
(2002).
(67) S. Guan, C.-H. Lai and
G.W. Wei, A
wavelet method for
the characterization of
spatiotemporal patterns, Physica D
, 163 ,
49-79 (2002).
(66) D.C. Wan, Y.C. Zhou and
G.W. Wei, Numerical solution
of incompressible flows
by the discrete
singular convolution, Int.
J. Numer. Methods Fluid,
38 ,789-810 (2002).
(65) M. Zhan, G.W. Wei and
C.-H. Lai, Transition from
intermittence to periodicity
in lag synchronization in
coupled Rossler oscillators,
Phys. Rev. E ,
65, 036202 (2002).
(64) S.
Y. Yang, Y.
C. Zhou and
G.W. Wei, Comparison of
the discrete singular
convolution algorithm and
the Fourier pseudospectral methods
for solving partial
differential equations, Comput. Phys. Commun. ,
143 , 113-135
(2002).
(63) B.
S. V. Patnaik, and
G.W. Wei, Controlling wake
turbulence, Phys. Rev. Lett. , 88
, 054502 (2002).
This work was featured
in Physical Review
Focus and Wissenschat-online.
(62) Y.B. Zhao, G.W. Wei, and
Y. Xiang, Discrete singular
convolution for the
prediction of high
frequency vibration of
plates, Int. J. Solids and Struct.,
39, 65-88 (2002).
(61) G.W. Wei, H. Wang, D.J.
Kouri, M. Papadakis, I.A.
Kakadiaris, and D.K. Hoffman, On
the mathematical properties
of distributed approximating
functionals, J. Math.
Chem., 30 ,
83-107 (2001).
(60) Z. Shi, G.W. Wei, D.J.
Kouri, D.K. Hoffman, Z.
Bao, Lagrange
wavelets for signal
processing, IEEE T. Image Processing, 10
, 1488-1508 (2001).
(59) D.C. Wan, B.S.V. Patnaik and
G.W. Wei, A
new benchmark quality
solution for the
buoyancy driven cavity
by discrete singular
convolution, Numer. Heat
Transfer B -
Fundamentals , 40
, 199-228 (2001).
(58) G.W. Wei, Y.B. Zhao and
Y. Xiang, The
determination of the
natural frequencies of
rectangular plates with
mixed boundary conditions
by discrete singular
convolution, Int. J.
Mech. Sci. ,
43 , 1731-1746
(2001).
(57) S. Guan, C.-H. Lai and
G.W. Wei, Fourier-Bessel
analysis of patterns
in a circular
domain, Physica D
, 151 ,
83-98 (2001).
(56) G.W. Wei, Discrete
singular convolution for
beam analysis, Engineering
Structures , 23
, 1045-1053 (2001).
(55) G.W. Wei, Vibration
analysis by discrete
singular convolution, J.
Sound Vibration ,
244 , 535-553
(2001).
(54) G.W. Wei, Synchronization of
single-side locally averaged
adaptive coupling and
its application to
shock capturing, Phys.
Rev. Lett. ,
86 , 3542-3545
(2001).
(53) G.W. Wei, A new
algorithm for solving
some mechanical problems,
Comput.
Methods Appl. Mech. Engng.,
190, 2017-2030 (2001).
(52) D.C. Wan and G.W. Wei, The study
of quasi wavelets
based numerical method
applied to Burgers'
equations, Appl. Math.
Mech-Engl , 21
, 1099-1110 (2000).
(51) D.C. Wan and G.W. Wei, Numerical solution
of incompressible Euler
and Navier-Stokes equations
by efficient discrete
singular convolution method,
Acta Mechanica Sinica, 16
, 223-239 (2000).
(50) G.W. Wei, Wavelets
generated by using
discrete singular convolution
kernels, J. Phys. A, Mathematical and
General, 33 ,
8577-8596 (2000).
(49) G.W. Wei, A
unified approach for
the solution of
the Fokker-Planck equation,
J. Phys. A, Mathematical and
General , 33
, 4935-4953 (2000).
(48) G.W. Wei, Solving
quantum eigenvalue problems
by discrete singular
convolution, J. Phys. B , 33
, 343-352 (2000).
(47) G.W. Wei, Discrete
singular convolution for
the sine-Gordon equation,
Physica
D, 137 ,
247-259 (2000).
(46) D.
K. Hoffman, G.
W. Wei, and
D. J. Kouri, A
variation approach to
the Dirichlet--Gabor wavelet-distributed approximating
functional, J. Math.
Chem., 25, 235-244
(1999).
(45) D.S. Zhang, G.W. Wei, D.J.Kouri, David K. Hoffman, Michael Gorman,
Antonio Palacios, and
Gemunu H. Gunaratne, Integrating
the Kuramoto-Sivashinsky equation
in polar coordinates:
Application of the
distributed approximating functional
approach, Phys. Rev.
E., 60 ,
3353-3360 (1999).
(44) Zhuoer Shi, D.J.
Kouri, G.W. Wei, and
David K. Hoffman, Generalized symmetric
interpolating wavelets, Comput. Phys.
Commun., 119,
194-218 (1999).
(43) D.J.
Kouri, D.S. Zhang, G.W.
Wei, and D.K. Hoffman, Numerical solutions
of nonlinear wave
equations , Phys.
Rev. , E
59 , 1274-1277
(1999).
(42) G.W. Wei, Generalized Perona-Malik equation
for Image Restoration,
IEEE Signal Processing
Lett., 6, 165-167
(1999).
(41) G.W. Wei, Discrete
singular convolution for
the solution of
the Fokker-Planck equations,
J. Chem. Phys. ,
110 , 8930-8942
(1999).
(40) G.W. Wei, Generalized
reaction-diffusion
equations, Chem. Phys.
Lett . ,
303, 531-536 (1999).
(39) S. Alavi, G.W. Wei and
R.F. Snider, Chain
relations of reduced
distribution functions and
their associated correlation
functions, J. Chem.
Phys., 108 ,
706-714 (1998).
(38) D.S. Zhang, G.W. Wei, D.J.
Kouri and D.K. Hoffman, Lagrange
distributed approximating functional
method for the
solution of the
Schrodinger equation, Chem.
Phys. Lett. ,
284 , 56-62
(1998).
(37) D.K. Hoffman, G.W. Wei, D.S.
Zhang, and D.J. Kouri, Interpolating distributed
approximating functionals, Phys.
Rev. , E
57 , 6152-6160
(1998).
(36) D.K. Hoffman, G.W. Wei, and
D.J. Kouri, Shannon-Gabor wavelet
distributed approximating functional,
Chem. Phys. Lett. ,
287 , 119-124
(1998).
(35) G.W. Wei, D.S. Zhang, D.J.
Kouri and D.K. Hoffman, Distributed approximating
functional approach to
Burgers' equation in
one and two
space dimensions, Comput. Phys. Commun. ,
111 , 87-92
(1998).
(34) G.W. Wei, S. Althorpe, D.J.
Kouri and D.K. Hoffman, Lagrange-distributed approximating-functional approach
to wave-packet propagation:
Application to the
time-independent wave-packet reactant-product decoupling
method, Phys. Rev. A 57 (5)
, 3309-3316 (1998).
(33) G.W. Wei, D.J. Kouri, and
D.K. Hoffman, Wavelets and
distributed approximating functionals,
Comput.
Phys. Commun. ,
112, 1-6 (1998).
(32) G.W. Wei, D.S. Zhang, D.J.
Kouri, and D.K. Hoffman, Wavelet-distributed approximating
functional method for
solving the Navier-Stokes
equation, Comput. Phys. Commun. ,
115 , 18-24
(1998).
(31) G.W. Wei, D.S. Zhang, D.J.
Kouri and D.K. Hoffman, A robust
and reliable approach
to nonlinear dynamical
problems, Comput. Phys. Commun.,
111, 93-109 (1998).
(30) G.W. Wei, Quasi
wavelets and quasi
interpolating wavelets, Chem.
Phys. Lett., 296
, 215-222 (1998).
(29) G.W. Wei, S. Althorpe, D.J.
Kouri and D.K. Hoffman, An
application of distributed
approximating
functional-wavelets to reactive
scattering, J. Chem.
Phys., 108 ,
7065-7069 (1998).
(28) G.W. Wei,
D.S. Zhang, D.J.
Kouri and
D.K. Hoffman, Lagrange
distributed approximating functionals,
Phys. Rev. Lett.
,79 , 775-779
(1997).
(27) G.W. Wei, S. Alavi and
R.F. Snider, Equal
reaction rates for
all recombination pathways,
J. Chem. Phys ,
106 , 1463-1466
(1997).
(26) D.S. Zhang, G.W. Wei, D.J.
Kouri and D.K. Hoffman, Distributed approximating
functional approach to the Fokker-Planck
equation: Eigenfunction expansion,
J. Chem. Phys. ,
106 , 5216-5224
(1997).
(25) D.S. Zhang, G.W. Wei, D.J.
Kouri and D.K. Hoffman, Burgers' equation
with high Reynolds
number, Phys. Fluids ,
9 , 1853-1855
(1997).
(24) D.S. Zhang, G.W. Wei, D.J.
Kouri and D.K. Hoffman, Numerical method
for the nonlinear
Fokker-Planck equation, Phys.
Rev. E 56
, 1197-1206 (1997).
(23) G.W. Wei, D.S. Zhang, D.J.
Kouri and D.K. Hoffman, Distributed approximating
functional approach to the Fokker-Planck
equation: Time propagation,
J. Chem. Phys., 107
, 3239-3246 (1997).
(22) J.G. Muga, G.W. Wei and
R.F. Snider, Short-time
behaviour
of the quantum
survival probability, Europhys. Lett., 35,
247-252 (1996).
(21) J.G. Muga, G.W. Wei and
R.F. Snider, Survival
probability for the
Yamaguchi potential, Ann.
Phys. , 252
, 336-356 (1996).
(20) R.F. Snider, G.W. Wei and
J.G. Muga, Moderately dense
gas quantum kinetic
theory: Transport coefficient
expressions, J. Chem.
Phys. , 105
, 3066-3078 (1996).
(19) R.F. Snider, G.W. Wei and
J.G. Muga, Moderately dense
gas quantum kinetic
theory: Aspects of
pair correlations, J.
Chem. Phys. ,
105 , 3057-3065
(1996).
(18) G.W. Wei and R.F. Snider, Discrete
basis representation of
Ursell operators, Phys.
Rev. , E
54 , 2414-2418,
(1996).
(17) G.W. Wei and R.
F. Snider, Correlated
state evaluation of the second
virial coefficient, Phys.
Rev. A ,
52(4) , 2925-2936
(1995).
(16) G. Wei and R.
F. Snider, A
pictorial representation for multispin
evolutions, Concepts in
Magn. Reson. ,
7(2) , 153-163
(1995).
(15) R. F.
Kiefl, J. W.
Schneider, A. McFarlane,
K. Chow, T.
L. Duty, T.
L. Estle, B.
Hitti, R. L.Lichti,
E. J. Ansaldo, C. Schwab, P.
W. Percival, G.
Wei, S. Wlodek, K.
Kojima, W. J. Romanow, J. P. McCauley, Jr, N. Coustel, J.
E. Fischer, and
A. B. Smith, III,
Molecular dynamics of
the Muonium-C60 radical
in solid C60,
Phys. Rev. Lett. ,
68 , 2708-2712
(1992).
(14) R.
F. Kiefl, J.
W. Schneider, A.
McFarlane, K. Chow, T.
L. Duty, T.
L. Estle, B.
Hitti, R. L. Lichti, E. J. Ansaldo, C. Schwab, P.
W. Percival, G.
Wei, S. Wlodek, K.
Kojima, W. J. Romanow, J. P. McCauley, Jr, N. Coustel, J.
E. Fischer, and
A. B. Smith, III,
Molecular dynamics of
the (Mu+)- C60
radical in solid
C60, Phys. Rev. Lett. , 68,
1347-1350 (1992).
(13) F.L. Jiang, G.W. Wei, Z.Y.
Huang, X.J. Lei, M.C. Hong, B.S. Kang
and H.Q. Liu, Syntheses and
crystal structures of 2 thiolato-organophosphino cobalt(II)
complexes,
(Et4N)[Co(SC6H5)3(PPh3)] and [Co(S-meta-
C6H4CH3)2(Ph2PCH2CH2P(Ph)CH2CH2PPh2)],
J. Coord. Chem.,
25, 183-191 (1992).
(12) G.W. Wei, Z.Y. Huang, X.J. Lei, R. Cao, F.L. Jiang, M.C.
Hong, L.R. Huang and H.Q. Liu, Structure of [Bis(2-diphenylphospinoethyl)phenylphospine-P,
P, P] carbonyl-(phenylthiolato)Cobalt(I), [Co(Ph2PCH2CH2P(Ph)CH2CH2PPh2)(SPh)(CO)], ActaCrystallogr. C, 48,
2130-2132 (1992).
(11) G. Wei, M. Hong, Z.
Huang, and H. Liu, Synthesis and
crystal structure of
a platinum(II) complex
with mixed diphosphine and
thiolate ligands, Pt(dppm)(SPh)_2, J. Struct.
Chem., 11(5), 334-338 (1992).
(10) M.C. Hong, Z.Y. Huang, X.J.
Lei, G.W. Wei, B.S.
Kang and H.Q. Liu, Syntheses, properties
and X-ray crystal
structures of hexa-nuclear
cobalt chalcogen clusters
Co6S8(PPh3)6 and Co6Se8(PPh3)6.THF, Polyhedron,
10, 927-934 (1991).
(9) F.L. Jiang, G.W. Wei, X.J.
Lei, L.R. Huang, M.C.
Hong and H.Q.
Liu, Synthesis, characterization and
polymorphic crystal structures
of Bis(para-tolylthiolato)bis(tri-n-butylphosphine)-Nickel(II), J.
Chem. Res. S, 9,
238-239 (1991).
(8) G.W. Wei, M.C. Hong, Z.Y.
Huang, and H.Q. Liu, Stereochemistry of
mixed thiolate and ditertiary
phosphine cobalt (II)
complexes -- Crystal
structures of [Co(Ph2P(CH2)3-PPh2)(SPh)2] and
[Co(Ph2PCH2CH2P(Ph)CH2CH2PPh2)(SPh)2], J.
Chem. Soc. Dalton, 11,
3145-3148 (1991).
(7) G.W. Wei, H.Q. Liu, Z.Y.
Huang, M.C. Hong, L.R.
Huang and B.S. Kang, Syntheses and
stereochemistry of Dicobalt (II)
complexes, [Co2(dppm)(mu-SR)2(SR)2]
(dppm=Ph2PCH2PPh2 -
R=C6H5, m-C6H4CH3, p-C6H4CH3
and p-C6H4-TC4H9) and
[Co2(dppe)(mu-SPh)3(SPh)] (dppe=Ph2PCH2CH2PPh2),
Polyhedron, 10, 553-560
(1991).
(6) M. Hong, Z. Huang, X.
Lei, G. Wei, B.
Kang, and H. Liu, A cobalt-selenium cluster
with triethylphophine: Preparation
an structure of
Co6(v3-Se)8(PEt_3)_6.THF,
Chin. J. Chem., (English), 9(5),
421-428 (1991).
(5) G.W. Wei and H.Q. Liu, Structure of
[1,2-Bis(diphenylphosphino)Ethane] -Di(phenylthio)Palladium(II), Acta Crystallogr. C, 46,
2457-2458 (1990).
(4) H.Q. Liu R. Cao, X.J.
Liu D. Wu, G.W.
Wei, Z.Y. Huang, M.C.
Hong, and B.S. Kang, Syntheses and
structural characterizations of a series
of Mo(W)-Cu-S compounds
of bidentat dialkyldithiocarbamate ligands--
Crystal structure of
[NET4]2{Mo2Cu5S6O2(Me2NCS2)3],
J. Chem. Soc. Dalton, 3,
1023-1026 (1990).
(3) M.C. Hong, Z.Y. Huang, X.J.
Lei, G.W. Wei, B.S.
Kang and H.Q. Liu, A new
cobalt sulfur cluster
with triphenylphosphine -
Preparation and structure
of CO6S8(PPh3)6, Inorg.
Chem. Acta, 159,
1-2 (1989).
(2) H. Liu, R. Cao, X.
Lei, G. Wei, and
B. Kang, NMR
study of some
molybdenum
(tungsten)-copper-sulfur
compounds, Bull. Magn.
Reson., 11(3-4),
395 (1989).
(1) G.W. Wei, H.Q. Liu, Z.Y.
Huang, L.R. Huang and
B.S. Kang, Synthesis and
X-ray structure of
an asymmetrical dicobalt (II)
complex CO2(dppe)(mu-SPH)3SPh (dppe=Ph2PCH2CH2PPh2), J. Chem Soc. Chem. Commun.,
23, 1839-1840 (1989).
PATENTS
1.
Donald K Kouri,
David K Hoffman, Mark Arnold, Ioannis A Kakadiaris, Zhuoer Shi, DeSheng Zhang, Gemunu
H Gunaratne, Haixiang Wang, Guowei W Wei, Methods for performing DAF data filtering and padding
– US Patent 7272265 (2007).
2. Guowei Wei, Duc D Nguyen and Zixuan Cang, System and methods for machine learning for drug design and discovery - US Patent App. 16/372,239 (2019).
3.
GW Wei, DD
Nguyen, Z Cang, Systems and methods for drug design and discovery comprising
applications of machine learning with differential geometric modeling, US
Patent App. 17/043,551 (2021).
4.
Guowei Wei, Jiahui Chen, Zixuan Cang and Weihua
Geng, Machine learning based implicit solvent models for molecular simulations, Pending, US Patent App. 17/637,440, (2022).