Featured Article: Nature Communications Editors’ Highlights on NIT Wireless Theranostics

The typical approach to electronics is to integrate sensors, power units, and components on a printed circuit board (PCB). Authors demonstrate a woven self-powered, fully integrated combination of sensors and components, rather than integrated onto a PCB, allowing for wearable health monitoring.

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Our paper "A non-printed integrated-circuit textile for wireless theranostics" (Nat Commun 12, 4876 (2021). https://doi.org/10.1038/s41467-021-25075-8) has become a featured paper in Nature Communications https://www.nature.com/collections/bjiiabbacg

The editors aNature Communications have put together an Editors’ Highlights webpage of recent research called “Devices” and are pleased to inform you that editors chose to feature your article, entitled “A non-printed integrated-circuit textile for wireless theranostics”.

The webpage can be accessed at www.nature.com/collections/bjiiabbacg and is linked prominently on our journal homepage (https://www.nature.com/ncomms/and a dedicated Editors’ Highlights page (https://www.nature.com/ncomms/editorshighlights).

Related Nanomedicine/Cancer Theranostics works:

  1. D Gao, T Chen, Y Han, S Chen, Y Wang, X Guo, H Wang, X Chen, M Guo, Y Zhang, G Hong, X Zhang*, Z Tian*, Z Yang*. Targeting Hypoxic Tumors with Hybrid Nanobullets for Oxygen-independent Synergistic Photothermal-thermodynamic Therapy. Nano-Micro Letters, 2021,13, 99. (Featured Cover Paper)
  2. Y Yang, X Wei, N Zhang*, J Zheng, Q Wen, X Luo, C Lee, X Liu, X Zhang*, J Chen, C Tao, W Zhang*, X Fan*. A non-printed integrated-circuit textile for wireless theranostics. Nature Communications. 2021, 12, 4876.
  3. X Ji, L Ge, C Liu, Z Tang, Y Xiao, Z Lei, W Gao, S Blake, D De, X Zeng, Na Kong,* X Zhang*, W Tao*. Capturing functional two-dimensional nanosheets from sandwich-structure vermiculite: synthesis and application in cancer theranostics. Nature Communications, 2021, 12, 1124.
  4. N Kong, H Zhang, C Feng, C Liu, Y Xiao, X Zhang, L Mei, J S Kim, W Tao, X Ji. Arsenene-mediated multiple independently targeted reactive oxygen species burst for cancer therapy. Nature Communications. 2021, 12, 4777.
  5. Z Tang†, N Kong†, X. Zhang†, Y Liu, P Hu, S Mou, P Liljeström, J Shi, W Tan, J S Kim, Y Cao, R Langer,  K W. Leong, O C. Farokhzad, W Tao. A materials-science perspective on tackling COVID-19. Nature Reviews Materials, 2020, 5, 847-860. (Featured Cover Paper, highly cited paper, accessed>20,000 times) 
  6. Y Wang, D Gao, Y Liu, X Guo, S Chen, L Zeng, J Ma, X Zhang*, Z Tian*, Z Yang*. Immunogenic-Cell-Killing and Immunosuppression-Inhibiting Nanomedicine. Bioactive Materials, 2020, 6 (6), 1513-1527.
  7. J Yang†, X Zhang†, C Liu†, Z Wang, L Deng, C Feng, W Tao, X Xua, W Cui. Biologically Modified Nanoparticles as Theranostic Progress in Materials Science, 2021, 118, 100768.
  8. Z Yang, D Gao, X Guo, L Jin, J Zhang, Y Wang, S Chen, X Zheng, L Zeng, M Guo, X Zhang*, Z Tian*. Fighting immune cold and reprogramming immunosuppressive tumor microenvironment with red blood cell membrane-camouflaged ACS Nano, 2020, 14, 12, 17442-17457.
  9. D Wei, Y Yu, Y Huang,1 Y Jiang, Y Zhao, Z Nie, F Wang, W Ma, Z Yu, Y Huang, X Zhang, Z Liu, X Zhang, H Xiao. A Near-Infrared-II Polymer with Tandem Fluophores Demonstrates Superior Biodegradability for Simultaneous Drug Tracking and Treatment Efficacy Feedback. ACS Nano, 2021, 15 (3), 5428–5438.
  10. D Wei, Y Yu, X Zhang, Y Wang, H Chen, Y Zhao, F Wang, G Rong, W Wang, X Kang, J Cai, Z Wang, J Yin, M Hanif, Y Sun, G Zha, L Li, G Nie, H Xiao*. Breaking down the intracellular redox balance with diselenium nanoparticles for maximizing chemotherapy efficacy on patient-derived xenograft models. ACS Nano, 2020, 14, 12, 16984-16996.
  11. Z Lei, W Zhu, X Zhang, X Wang, P Wu. Bio-inspired ionic skin for theranostics hydrogel. Advanced Functional Materials, 2020, 2008020.
  12. D Gao, X Guo, X Zhang*, S Chen, Y Wang, T Chen, G Huang, Y Gao, Z Tian*, Z Yang*. Multifunctional phototheranostic nanomedicine for cancer imaging and treatment. Materials Today Bio. 2019, 5,100035. (Invited Paper, ESI highly cited paper, open access with a fee waiver, 99.983% excellence, 2nd most highly cited paper of Materials Today Bio)
  13. J Ouyang†, X Ji†, X Zhang†, C Feng, Z Tang, N Kong, A Xie, J Wang, X Sui, L Deng, Y Liu, J S Kim, Y Cao, W Tao*. In situ sprayed NIR-responsive, analgesic black phosphorus-based gel for diabetic ulcer Proceedings of the National Academy of Sciences of the United States of America (PNAS), 2020, 117 (46), 28667-28677. (highly cited paper, Highlighted by: MRS Bulletin Materials News)
  14. G Parekh, Y Shi, J Zheng, X Zhang*, S Leporatti. Nano-carriers for targeted delivery and biomedical imaging enhancement. Therapeutic Delivery, 2018, 9(6), 451-468.
  15.  C Liu, S Sun, Q Feng, Y Wu, N Kong, Z Yu, J Yao, X Zhang, W Chen, Z Tang,  Y Xiao, X Huang, A Lv, Y Cao, A Wu, T Xie, W Tao. Arsenene nanodot: a new-concept arsenical drug with selective killing effects for solid tumor therapy. Advanced Materials, 2021, 2102054
  16. W Y Kim, M Won, S Koo, X Zhang, J S Kim. Mitochondrial H2Sn-Mediated Anti-Inflammatory Theranostics. Nano-Micro Letters,  2021, 13, 168.
  17. J Li, S Song, J Meng, Z Li,  X Liu, L Tan, Y Zheng, C Li, K Yeung, Z Cui, Y Liang, S Zhu, X Zhang*, S Wu. 2D MOF periodontitis photodynamic ion therapy. Journal of the American Chemical Society, DOI:10.1021/jacs.1c07875.
  18. D Zhong,  D Zhang, W Chen, J He, C Ren, X Zhang, N Kong, W Tao, M Zhou. Orally Deliverable Strategy Based on Microalgal Biomass for Intestinal Diseases Treatment. Science Advances, 2021, abi9265.
  19. S Koo, M Lee, A Sharma, M Li, X Zhang, K Pu*, S Chi*, J S Kim*. Harnessing GLUT1 Targeted Pro-oxidant Ascorbate for Synergistic Phototherapeutics. Angewandte Chemie, 2021, 202110832.
  20. G U Ruiz-Esparza, X Wang, X Zhang, S Jimenez-Vazquez, L Diaz-Gomez, A M Lavoie, S Afewerki, A A. Fuentes-Baldemar, R Parra-Saldivar, N Jiang, N Annabi, B Saleh, A K Yetisen, A Sheikhi, T H Jozefiak, S R Shin, N Dong, A Khademhosseini. Nanoengineered Shear-Thinning Hydrogel Barrier for Preventing Postoperative Adhesions. Nano-Micro Letters, DOI : 10.1007/s40820-021-00712-5.
  21. Z Tang†, X Zhang†, Y Shu, M Guo, H Zhang, W Tao. Insights from nanotechnology in COVID-19 treatment. Nano Today, 2020, 36, 101019. (2nd Most Downloaded Paper of Nano Today, highly cited paper)

Other Related Nature-derived/inspired materials/tea works:

  1.  C Liu, S Sun, Q Feng, Y Wu, N Kong, Z Yu, J Yao, X Zhang, W Chen, Z Tang,  Y Xiao, X Huang, A Lv, Y Cao, A Wu, T Xie, W Tao. Arsenene nanodot: a new-concept arsenical drug with selective killing effects for solid tumor therapy. Advanced Materials. 2021, 2102054
  2. Y Xie, J Yin, J Zheng, L Wang, J Wu, M Dresselhaus, X Zhang*. Synergistic cobalt sulfide/eggshell membrane carbon ACS Applied Materials & Interfaces. 2019, 11 (35), 32244-32250.
  3. N Kong, H Zhang, C Feng, C Liu, Y Xiao, X Zhang, L Mei, J S Kim, W Tao, X Ji. Arsenene-mediated multiple independently targeted reactive oxygen species burst for cancer therapy. Nature Communications. 2021, 12, 4777.
  4. D Zhong,  D Zhang, W Chen, J He, C Ren, X Zhang, N Kong, W Tao, M Zhou. Orally Deliverable Strategy Based on Microalgal Biomass for Intestinal Diseases Treatment. Science Advances, 2021, abi9265.
  5. X Ji, L Ge, C Liu, Z Tang, Y Xiao, Z Lei, W Gao, S Blake, D De, X Zeng, Na Kong*, X Zhang*, W Tao*. Capturing functional two-dimensional nanosheets from sandwich-structure vermiculite: synthesis and application in cancer theranostics. Nature Communications, 2021,12,1124.
  6. Z Li, D Chu, Y Gao, L Jin*, X Zhang*, W Cui, J Li*. Biomimicry, biomineralization, and bioregeneration of bone using advanced three-dimensional fibrous hydroxyapatite Materials Today Advances. 2019,3,100014. (Invited open-access paper among most highly cited paper of Materials Today Advances)
  7. Z Lei, W Zhu, X Zhang, X Wang, P Wu. Bio-inspired ionic skin for theranostics hydrogel. Advanced Functional Materials, 2020, 2008020.
  8. L Jin, J Li, L Liu*, Z Wang*, X Zhang*. Facile synthesis of carbon dots with superior sensing. Applied Nanoscience, 2018, 755(3), 1-8.
  9. J Yang†, X Zhang†, C Liu†, Z Wang, L Deng, C Feng, W Tao, X Xua, W Cui. Biologically Modified Nanoparticles as Theranostic Progress in Materials Science, 2021, 118, 100768.
  10. Z Yang, D Gao, X Guo, L Jin, J Zhang, Y Wang, S Chen, X Zheng, L Zeng, M Guo, X Zhang*, Z Tian*. Fighting immune cold and reprogramming immunosuppressive tumor microenvironment with red blood cell membrane-camouflaged ACS Nano, 2020, 14, 12, 17442-17457.
  11. Y Wang, L Lu, G Zheng*, X Zhang*. Microenvironment-controlled micropatterned microfluidic model for biomimetic in-situ studies. ACS Nano, 2020, 14(8), 9861-9872. (Featured Cover Paper)
  12. Z Li†, X Zhang†, Z Guo, L Shi, L Jin, L Zhu, X Cai, J Zhang, Y Liu, Y Zhang, J Li. Nature-Derived Bionanomaterials for sustained release of 5-fluorouracil to inhibit subconjunctival fibrosis. Materials Today Advances, 2021, 11, 100150.  
  13. X Chen, Y Chen, L Zou, X Zhang, Y Dong, J Tang, D McClements, W Liu. Plant-based Nanoparticles Consisting of a Protein Core and Multilayer Phospholipid Shell: Fabrication, Stability, and  Journal of Agricultural and Food Chemistry, 2019, 67 (23), 6574-6584.
  14. P Tang, D Shen, Y Xu, X Zhang*, J Shi, J Yin*. Effect of fermentation conditions and the tenderness of tea leaves on the chemical components and sensory quality of fermented juice. Journal of Chemistry, 2018, 4312875,1-7.
  15. X Zhang*. Tea and cancer prevention. Journal of Cancer Research Updates, 2015, 4 (2), 65-73.
  16. Q Zhang, W Li, K Li, H Nan, C Shi, Y Zhang, Z Dai, Y Lin, X Yang, Y Tong, D Zhang, C Lu, L Feng, C Wang, X Liu, J Huang, W Jiang, X Wang, X Zhang, Eichler, Z. Liu, L. Gao. The Chromosome-Level Reference Genome of Tea Tree Unveils Recent Bursts of Non-autonomous LTR Retrotransposons in Driving Genome Size Evolution. Molecular plant 2020,13 (7), 935-938.
  17. Y Yang†, P Jin†, X Zhang†, N Ravichandran, H Ying, C Yu, H Ying, Y Xu, J Yin, K Wang, M Wu, Q New epigallocatechin gallate (EGCG) nanocomplexes co-assembled with 3-mercapto-1-hexanol and ß- lactoglobulin for improvement of antitumor activity. Journal of Biomedical Nanotechnology, 2017,13 (7), 805-814.
  18. X Zhang*, G Parekh, B Guo, X Huang, Y Dong, W Han, X Chen, G Polyphenol and Self-Assembly: Metal Polyphenol Nanonetwork for Drug Delivery and Biomedical Applications. Future Drug Discovery, 2019, 1 (1), FDD7. (Invited open-access paper with a fee waiver, most cited paper of the journal)

Related 2-dimentional/carbon materials works:

  1. Y Zheng, H Wei, P Liang, X Xu, X Zhang, H Li, C Zhang, C Hu, X Zhang, B Lei, W Wong, Y Liu, J Zhuang. Near-infrared-excited multicolor afterglow in carbon dots-based room-temperature phosphorescent materials. Angewandte Chemie, 2021, 202108696.  
  2. J Li, S Song, J Meng, Z Li,  X Liu, L Tan, Y Zheng, C Li, K Yeung, Z Cui, Y Liang, S Zhu, X Zhang*, S Wu. 2D MOF periodontitis photodynamic ion therapy. Journal of the American Chemical Society, DOI:10.1021/jacs.1c07875.
  3. G Li, C Liu, X Zhang, P Luo, G Lin, W Jiang. Highly photoluminescent carbon dots-based immunosensors for ultrasensitive detection of aflatoxin M1 residues in milk. Food Chemistry. 2021, 355, 129443.
  4. L Jin, X Guo, D Gao, G Tan, N Du, X Wang, Y Zhang, Z Yang*, X Zhang*. NIR-responsive MXene nanobelts for wound NPG Asia Materials. 2021,13, 24. Selected for the “Special Issue on Biomaterials and Health-care related Materials”.
  5. J Meng, J Li, J Liu, X Zhang*, G Jiang*, L Ma, Z Hu, S Xi, Y Zhao, M Yan, P Wang, X Liu, Q Li, J Liu, T Wu, L Mai*. Universal Approach to Fabricating Graphene-Supported Single-Atom Catalysts from  Doped ZnO  Solid ACS Central Science, 2020, 6(8), 1431–1440.
  6. J Cui, J Yin, J Zheng, J Meng, M Liao, T Wu, S He, S Wei, Z Xie, H Wang, M Dresselhaus, Y Xie*, J Wu*,  C Lu*, X Zhang*. Supermolecule cucurbituril subnanoporous carbon supercapacitor(SCSCS). Nano Letters, 2021, 21 (5), 2156–2164.
  7. J Meng, Z Liu, X Liu, W Yang, L Wang, Y Li, Y Cao, X Zhang*, L Mai*. Scalable fabrication and active site identification of MOF shell-derived nitrogen-doped carbon hollow frameworks for oxygen Journal of Materials Science & Technology, 2020, 66, 186-192.
  8. F Han, S Lv, Z Li, L Jin, B Fan*, J Zhang, R Zhang, X Zhang*, L Han, J Li*. Triple-synergistic 2D material- based dual-delivery antibiosis platform. NPG Asia Materials, 2020,12,15.
  9. J Ouyang†, X Ji†, X Zhang†, C Feng, Z Tang, N Kong, A Xie, J Wang, X Sui, L Deng, Y Liu, J S Kim, Y Cao, W Tao*. In situ sprayed NIR-responsive, analgesic black phosphorus-based gel for diabetic ulcer Proceedings of the National Academy of Sciences of the United States of America (PNAS), 2020, 117 (46), 28667-28677. (highly cited paper, Highlighted by: MRS Bulletin Materials News)
  10. H Zhou*, Z Wang, W Zhao, X Tong, X Jin, X Zhang*, Y Yu, H Liu, Y Ma, S Li, W Robust and sensitive pressure/strain sensors from solution processable composite hydrogels enhanced by hollow-structured conducting polymers. Chemical Engineering Journal, 2020, 403, 126307.
  11. X Ji, L Ge, C Liu, Z Tang, Y Xiao, Z Lei, W Gao, S Blake, D De, X Zeng, Na Kong*, X Zhang*, W Tao*. Capturing functional two-dimensional nanosheets from sandwich-structure vermiculite: synthesis and application in cancer theranostics. Nature Communications, 2021, 12, 1124.
  12. X Ji, L Ge, C Liu, Z Tang, Y Xiao, Z Lei, W Gao, S Blake, D De, X Zeng, Na Kong*, X Zhang*, W Tao*. Capturing functional two-dimensional nanosheets from sandwich-structure vermiculite: synthesis and application in cancer theranostics. Nature Communications, 2021, 12, 4777.
  13. J Meng, Q He, L Xu, X Zhang, F Liu, X Wang, Q Li, X Xu, G Zhang, C Niu, Z Identification of phase control of carbon-confined Nb2O5 nanoparticles towards high-performance lithium  storage.  Advanced Energy Materials, 2019, 9 (18), 1802695.
  14. J Wu, F Xu, S Li, Q, Liu, X Zhang, Q Liu, R Fu, D Wu. Porous polymers as multifunctional material platforms toward task‐specific applications. Advanced  Materials,  2019,  31(4),  1802922.  (Citation>145,  ESI Highly Cited Paper, Invited Paper)
  15. B Zheng, X Lin, X Zhang, D Wu, K Matyjaszewski. Emerging functional porous polymeric and carbonaceous materials for environment treatment and energy storage. Advanced Functional  Materials, 2019, 1907006. (Invited Paper)
  16. R Huang, X Chen, Y Dong, X Zhang*, Y Wei, Z Yang, W Li, Y Guo, J Liu, Z Yang*, H Wang*, L Jin*.

    MXene composite nanofibers for cell culture and tissue engineering. ACS Applied Bio Materials. 2020, 3(4), 2125-2131. 

  17. J Ouyang, C Feng, X Zhang, N, Kong, W. Tao. Black Phosphorus in Biomedical applications: Evolutionary Journey from Monoelemental Materials to Composite Materials. Accounts of Materials Research. 2021, 2, 7, 489–500. (Featured Cover Paper, ACS Editors` Choicechosen from the entire ACS portfolio).

Related micropatterned microfluidics studies:

1)https://www.nature.com/articles/s41578-020-00247-y

Imaging systems and microfluidic devices for the in-depth and real-time investigation of viral structures and transmission,material platforms for organoids and organs-on-a-chip, in drug delivery and vaccination, and for the production of medical equipment.

  1. Z Tang†, N Kong†, X Zhang†, Y Liu, P Hu, S Mou, P Liljeström, J Shi, W Tan, J S Kim, Y Cao, R Langer, K W. Leong, O C. Farokhzad, W Tao. A materials-science perspective on tackling COVID-19. Nature Reviews Materials, 2020, 5, 847-860. (Featured Cover Paper, highly cited paper, accessed>19,000 times, Impact Factor:71.189)

 2)https://www.nature.com/articles/s41467-019-12462-5

Dendronized fluorosurfactant for highly stable water-in-fluorinated oil emulsions with minimal inter-droplet transfer of small molecules

  1. M Chowdhury, W Zheng, S Kumari, J Heyman, X Zhang, P Dey, D Weitz, R Haag. Dendronized fluorosurfactants provide phenomenal droplet integrity to picolitre emulsions for therapeutics development. Nature Communications, 2019, 10, 4546 (Impact Factor:14.919).

3) https://doi.org/10.1021/acsnano.0c02701

An osmotic-pressure, pH, excretion, nutrition, gas, ionic-strength, flow-rate, and temperature (OPEN GIFT) microenvironment-controlled micropatterned microfluidic model (MMMM) for biomimetic in situ studies (BISS) in simulating the in vivo microenvironment to study in situ the stress applied to Giardia in the intestinal tract. 

  1. Y Wang, L Lu, G Zheng*, X Zhang*. Microenvironment-controlled micropatterned microfluidic model for biomimetic in-situ studies. ACS Nano, 2020, 14(8), 9861-9872. (Featured Cover Paper, Impact Factor:15.881).

4) https://doi.org/10.1016/j.bios.2019.111597

  1. S Han†, Q Zhang†, X Zhang†, X Liu, L Lu, J Wei, Y Li, Y Wang, G A digital microfluidic diluter- based microalgal motion biosensor for marine pollution monitoring. Biosensors and Bioelectronics, 2019, 143, 111957 (Impact Factor:10.257).

5)  https://doi.org/10.2144/btn-2019-0134 

  1. L Liu, N Xiang, Z Ni, X Huang, J Zheng, Y Wang, X Zhang*. Step Emulsification: High throughput production of monodisperse droplets. BioTechniques, 2020, 68 (3), 114-116. (Invited Expert Paper)

6) https://doi.org/10.1016/j.nantod.2021.101152    https://authors.elsevier.com/a/1cv~x6DSyB6RP5

  1.  S Wang, Z Shen, Z Shen, Y Dong, Y Li, Y Cao, Y Zhang, S Guo, J Shuai, Y Yang, C Lin, M Guo, X Chen*, X Zhang*, Q Huang*. Machine-learning micropattern manufacturing. Nano Today, 2021, 38 (2021), 101152. (Impact Factor:20.722)

7) https://doi.org/10.1016/j.bioactmat.2021.04.014

  1. Z Li†, X Zhang† J Ouyang, D Chu, F Han, L Shi, R Liu, Z Guo, G Gu, W Tao, L Jin, J Li. Ca2+-supplying black phosphorus-based scaffolds developed with microfluidic technology for osteogenesis. Bioactive materials, 2021, 6(11), 4053-4064. (Instant Impact Factor:14.093).         

8) https://doi.org/10.1016/j.pmatsci.2020.100768 

Microfluidic technology for Theranostics.

  1. J Yang†, X Zhang†, C Liu†, Z Wang, L Deng, C Feng, W Tao, X Xua, W Cui. Biologically Modified Nanoparticles as Theranostic Bionanomaterials. Progress in Materials Science, 2021, 118, 100768. (Impact Factor:39.58)

9) https://doi.org/10.1007/s40820-021-00663-x

  1. M Chowdhury†, X Zhang, L Amini, A Faghani, A Singh, M Henneresse, R Haag. Functional Surfactants for Molecular Fishing, Capsule Creation, and Single-Cell Gene Expression.  Nano-Micro Letters, 2021, 13, 147. (Impact Factor:16.419)

 10) https://doi.org/10.1021/acs.analchem.1c00917

  1.  G Zheng, Q Gao, Y Jiang, L Lu, J Li,X Zhang, H Zhao, P Fan, Y Cui, F Gu, Y Wang.            Instrumentation-compact digital microfluidic (DMF) reaction interface extended  loop-mediated isothermal amplification (LAMP) for sample-to-answer testing of Vibrio parahaemolyticus. Analytical Chemistry, 2021, 93, 28, 9728–9736.

11)https://doi.org/10.1016/j.pmatsci.2020.100768 

  1. Y Li*, B Liu*, X Zhang*. Wettability-patterned microchips for emerging biomedical and material applications. Materials Today 2021.

12) https://doi.org/10.1016/j.marpolbul.2019.04.063  https://doi.org/10.1166/jnn.2019.16752   https://doi.org/10.1109/ICSENS.2010.5690979.

    1. Zhang, Q., Zhang, X., Zhang, X., Jiang, L., Yin, J., Zhang, P., Han, S., Wang, Y.& Zheng, G. A feedback-controlling digital microfluidic fluorimetric sensor device for simple and rapid detection of mercury (II) in costal seawater. Marine pollution bulletin, 2019, 144, 20-27.   https://doi.org/10.1016/j.marpolbul.2019.04.063
    2. R Yang, Z Gong, X Zhang, L Que. Single-walled carbon nanotubes (SWCNTs) and poly(3,4- ethylenedioxythiophene) nanocomposite microwire-based electronic biosensor fabricated by  microlithography and layer-by-layer nanoassembly. Journal of Nanoscience and Nanotechnology, 2019,19(12), 7591-7595. https://doi.org/10.1166/jnn.2019.16752 

Dr. Xingcai Zhang, Harvard/MIT Research Fellow; Science Writer/Editorial (Advisory) Board Member for Springer Nature, Elsevier, Materials Today, Royal Society of Chemistry, Wiley; Nature Nano Ambassador with 5 STEM degrees/strong background in sustainable Nature-derived/inspired/mimetic materials for biomed/sensing/catalysis/energy/environment applications, with more than 100 high-impact journal publications in Nature Reviews Materials (featured cover paper), Nature Nanotechnology, etc. https://scholar.google.com/citations?hl=en&user=2vDraMoAAAAJ&view_op=list_works&sortby=pubdate

https://scholar.harvard.edu/xingcaizhang 

https://orcid.org/0000-0001-7114-1095

Contact: Dr. Xingcai Zhang xingcai@mit.edu  +1-2253041387 wechat:drtea1

Xingcai Zhang

Harvard/MIT Research Fellow, Harvard University

Sustainable Nature-inspired/derived/mimetic materials, nanomaterials, biomedicine, lab-on-chip, 2D/C/porous/polymer materials, tea. Dr. Xingcai Zhang, Harvard/MIT Research Fellow; Science Writer/Editorial (Advisory) Board Member for Springer Nature, Elsevier, Materials Today, Royal Society of Chemistry, Wiley; Nature Nano Ambassador with 5 STEM degrees/strong background in sustainable Nature-derived/inspired/mimetic materials for biomed/sensing/catalysis/energy/environment applications, with more than 100 high-impact journal publications in Nature Reviews Materials (featured cover paper), etc. https://scholar.google.com/citations?hl=en&user=2vDraMoAAAAJ&view_op=list_works&sortby=pubdate

https://orcid.org/0000-0001-7114-1095

https://scholar.harvard.edu/xingcaizhang Contact: xingcai@mit.edu +1-2253041387 wechat:drtea1