Nicklas Blomquist

Postdoktor|Postdoc

  • Tjänstetitel: Postdoktor
  • Akademisk titel: Teknologie Doktor
  • Ansvarsområde: Projektledare DRIVE
  • Avdelning: Institutionen för naturvetenskap (NAT)
  • Telefon arbete: 010-142 80 86
  • E-postadress: nicklas.blomquist@miun.se
  • Besöksadress: Holmgatan 10, SE-851 80 Sundsvall
  • Rumsnummer: S412
  • Forskningscentra: Fibre Science and Communication Network
  • Ämnen: Energiteknik, Teknisk fysik, Fysik, Teknik

Dr Nicklas Blomquist

Forskare i Materialvetenskap och forskningsprojektledare i projekt DRIVE.

Bakgrund

- Doktorand, Teknisk Fysik, Mittuniversitetet (2017-2019)
- Industridoktorand, Teknisk Fysik, STT Emtec AB (2013-2016)
- Civilingenjörsutbildning, Teknisk Fysik, Mittuniversitetet (2007-2012)

Forskningsområden

Supercapacitors
Lithium Ion Batteries
Graphene production
Large-scale electrode coating
Nanomaterials and composites
Electric vehicles and infrastructure

Pågående forskning

Projekt DRIVE är ett stort forskningsprojekt för fördjupad forskning på innovativa, miljövänliga och kostnadseffektiva lösningar inom hela värdekedjan för grön energi, från att skörda och lagra energi till att ladda och driva framtidens fordon.

Delprojekten består av Skörda, Lagra, Ladda och Driva.

Extra kontaktinformation

Fullständig publikationslista

Publikationer

Artiklar i tidskrifter

Zhang, R. , Dahlström, C. , Zou, H. , Jonzon, J. , Hummelgård, M. , Örtegren, J. , Blomquist, N. , Yang, Y. & et al. (2020). Cellulose-Based Fully Green Triboelectric Nanogenerators with Output Power Density of 300 W m−2. Advanced Materials,    

Koppolu, R. , Blomquist, N. , Dahlström, C. & Toivakka, M. (2020). High-Throughput Processing of Nanographite-Nanocellulose-Based Electrodes for Flexible Energy Devices. Industrial & Engineering Chemistry Research, vol. 59: 24, ss. 11232-11240.    

Blomquist, N. , Koppolu, R. , Dahlström, C. , Toivakka, M. & Olin, H. (2020). Influence of Substrate in Roll-to-roll Coated Nanographite Electrodes for Metal-free Supercapacitors. Scientific Reports, vol. 10: 1    

Rastabi, S. A. , Mamoory, R. S. , Blomquist, N. , Phadatare, M. R. & Olin, H. (2020). Synthesis of a NiMoO4/3D-rGO nanocomposite via starch medium precipitation method for supercapacitor performance. Batteries, vol. 6: 1    

Blomquist, N. , Alimadadi, M. , Hummelgård, M. , Dahlström, C. , Olsen, M. & Olin, H. (2019). Effects of Geometry on Large-scale Tube-shear Exfoliation of Multilayer Graphene and Nanographite in Water. Scientific Reports, vol. 9: 1    

Zhang, R. , Hummelgård, M. , Örtegren, J. , Yang, Y. , Andersson, H. , Balliu, E. , Blomquist, N. , Engholm, M. & et al. (2019). Sensing body motions based on charges generated on the body. Nano Energy, vol. 63  

Phadatare, M. R. , Patil, R. , Blomquist, N. , Forsberg, S. , Örtegren, J. , Hummelgård, M. , Meshram, J. , Hernández, G. & et al. (2019). Silicon-Nanographite Aerogel-Based Anodes for High Performance Lithium Ion Batteries. Scientific Reports, vol. 9    

Rastabi, S. A. , Mamoory, R. S. , Dabir, F. , Blomquist, N. , Phadatare, M. R. & Olin, H. (2019). Synthesis of NiMoO4/3D-rGO Nanocomposite in Alkaline Environments for Supercapacitor Electrodes. Crystals, vol. 9: 1    

Andres, B. , Dahlström, C. , Blomquist, N. , Norgren, M. & Olin, H. (2018). Cellulose binders for electric double-layer capacitor electrodes : The influence of cellulose quality on electrical properties. Materials & design, vol. 141, ss. 342-349.    

Blomquist, N. , Wells, T. , Andres, B. , Bäckström, J. , Forsberg, S. & Olin, H. (2017). Metal-free supercapacitor with aqueous electrolyte and low-cost carbon materials. Scientific Reports, vol. 7    

Andres, B. , Engström, A. , Blomquist, N. , Forsberg, S. , Dahlström, C. & Olin, H. (2016). Electrode Mass Balancing as an Inexpensive and Simple Method to Increase the Capacitance of Electric Double-Layer Capacitors. PLoS ONE, vol. 11: 9, ss. 1-12.    

Blomquist, N. , Engström, A. , Hummelgård, M. , Andres, B. , Forsberg, S. & Olin, H. (2016). Large-Scale Production of Nanographite by Tube-Shear Exfoliation in Water. PLoS ONE, vol. 11: 4    

Andres, B. , Forsberg, S. , Dahlström, C. , Blomquist, N. & Olin, H. (2014). Enhanced electrical and mechanical properties of nanographite electrodes for supercapacitors by addition of nanofibrillated cellulose. Physica status solidi. B, Basic research, vol. 251: 12, ss. 2581-2586.  

Doktorsavhandlingar, sammanläggningar

Blomquist, N. (2019). Large-Scale Graphene Production for Environmentally Friendly and Low-Cost Energy Storage : Production, Coating, and Applications. Diss. (Sammanläggning) Sundsvall : Mid Sweden University, 2019 (Mid Sweden University doctoral thesis : 297)  

Konferensbidrag

Zhang, R. , Hummelgård, M. , Olin, H. , Blomquist, N. & Andres, B. (2019). The application of papers in energy harvesting and storage. Paper presented at the 2019 China International Specialty Papers Expo & Conference, Quzhou, China, October 16-18, 2019

Andres, B. , Dahlström, C. , Engström, A. , Forsberg, S. , Blomquist, N. & Olin, H. (2015). Cellulose-based binder systems for electrochemical electrodes. Paper presented at the 2015 E-MRS Spring Meeting

Forsberg, S. , Andres, B. , Blomquist, N. , Dahlström, C. , Engström, A. & Olin, H. (2015). Paper-based supercapacitors. Paper presented at the 2015 E-MRS Spring Meeting, May 11-15, 2015, Lille, France

Andres, B. , Blomquist, N. , Forsberg, S. & Olin, H. (2014). Characterization of nanographite and graphene produced in a high-pressure homogenizer. I Graphene Week 2014.

Alecrim, V. , Andres, B. , Zhang, R. , Hummelgård, M. , Blomquist, N. , Forsberg, S. , Engström, A. , Shimizu, K. & et al. (2014). Exfoliation of MoS2 for paper based applications. Paper presented at the MWP, Innovative paper-based products symposium, 2014

Andres, B. , Blomquist, N. , Forsberg, S. & Olin, H. (2014). Inexpensive production of graphene by mechanical treatment of graphite. I Graphene Study 2014.

Licentiatavhandlingar, sammanläggningar

Blomquist, N. (2016). Large-Scale Nanographite Exfoliation for Low-Cost Metal-Free Supercapacitors. Lic.-avh. (Sammanläggning) Sundsvall : Mid Sweden University, 2016 (Mid Sweden University licentiate thesis : 125)