dr. lim swee su

pensyarah universiti

institut sel fuel (selfuel)

 limss@ukm.edu.my



   Biografi/ Biography :

  • Swee Su adalah pakar yang mahir dalam elektrokimia mikrobial, dengan fokus utama pada peningkatan penyelesaian air bersih dan pembangunan sistem tenaga yang boleh diakses dan bersih melalui Teknologi Elektrokimia Mikrobial (MET). Penglibatannya yang aktif meluas kepada penciptaan sensor berasaskan elektrokimia mikrobial untuk memantau kualiti air tercemar dan air sisa. Sensor ini tidak hanya mengesan ketidaknormalan tetapi juga memainkan peranan penting dalam melindungi kemudahan rawatan air sisa dengan mengenal pasti masalah yang mungkin timbul. Terlibat dalam penyelidikan asas, Swee Su komited untuk mengenal pasti bahan terbaik untuk sensor dan kegunaannya dalam MET, termasuk penemuan bahan untuk prestasi sensor yang lebih baik dan pengintegrasian mereka ke dalam MET untuk aplikasi seperti pengurangan CO2 dan penjanaan tenaga. Kerja Swee Su mencerminkan komitmen terhadap penyelesaian inovatif dalam elektrokimia mikrobial dengan aplikasi praktikal dalam rawatan air, penjanaan tenaga, dan pemantauan alam sekitar.
    Swee Su is a proficient expert specializing in microbial electrochemistry, with a primary focus on advancing clean water solutions and developing affordable, environmentally friendly energy systems through Microbial Electrochemical Technologies (METs). His active involvement extends to the creation of microbial electrochemical-based sensors designed for monitoring the quality of polluted water and wastewater. These sensors not only detect abnormalities but also play a crucial role in safeguarding wastewater treatment facilities by identifying potential issues. Engaged in fundamental research, Swee Su is dedicated to identifying optimal materials for sensors and their applications in METs. This includes exploring materials for enhanced sensor performance and their integration into METs for applications such as CO2 reduction and power generation. Swee Su`s work reflects a commitment to innovative solutions in microbial electrochemistry with practical applications in water treatment, energy generation, and environmental monitoring.

  • krishan balachandran, ryan yow zhong yeo, mimi hani abu bakar, wei lun ang, mohd nur ikhmal salehmin, jean-marie fontmorin, swee su lim.  (2024).  conducting polymer as potential retrofitting material for gas diffusion electrode to enhance microbial electrosynthesis: state-of-the-art review.  - international journal of hydrogen energy.  932-957. 

     

    ang wei lun;abdul wahab bin mohammad;lim swee su;ahmad razi bin othman.  (2024).  commissioning and performance of biosensor probe for wastewater monitoring.  -

     

    irwan ibrahim, mohd nur ikhmal salehmin, krishan balachandran, muhammad farhan hil me, kee shyuan loh, mimi hani abu bakar, bor chyan jong, swee su lim.  (2023).  role of microbial electrosynthesis system in co2 capture and conversion: a recent advancement toward cathode development.  - frontiers in microbiology.  1-19. 

     

    ryan yow zhong yeo, bin hou chin, muhammad farhan hil me, jan feng chia, hai the pham, ahmad razi othman, abdul wahab mohammad, wei lun ang, swee su lim.  (2023).  rapid surface modification of stainless steel 304l electrodes for microbial electrochemical sensor application.  - acs biomaterials science and engineering.  6034-6044. 

     

    cut ulfah nihayati husaini, rozieffa roslan, ahmad bazli ramzi, abdullah amru indera luthfi, jian ping tan, swee su lim, gong tao ding, jamaliah md jahim, peer mohamed abdul.  (2023).  the crispr technology: a promising strategy for improving dark fermentative biohydrogen production using clostridium spp.  - international journal of hydrogen energy.  23498-23515. 

     

    krishan balachandran, ryan yow zhong yeo, mimi hani abu bakar, wei lun ang, mohd nur ikhmal salehmin, jean-marie fontmorin, swee su lim.  (2024).  conducting polymer as potential retrofitting material for gas diffusion electrode to enhance microbial electrosynthesis: state-of-the-art review.  - international journal of hydrogen energy.  932-957. 

     

    ryan yow zhong yeo, bin hou chin, muhammad farhan hil me, jan feng chia, hai the pham, ahmad razi othman, abdul wahab mohammad, wei lun ang, swee su lim.  (2023).  rapid surface modification of stainless steel 304l electrodes for microbial electrochemical sensor application.  - acs biomaterials science and engineering.  6034-6044. 

     

    irwan ibrahim, mohd nur ikhmal salehmin, krishan balachandran, muhammad farhan hil me, kee shyuan loh, mimi hani abu bakar, bor chyan jong, swee su lim.  (2023).  role of microbial electrosynthesis system in co2 capture and conversion: a recent advancement toward cathode development.  - frontiers in microbiology.  1-19. 

     

    mohd nur ikhmal salehmin, muhammad farhan hil me, wan ramli wan daud, nazlina haiza mohd yasin, mimi hani abu bakar, abu bakar sulong, swee su lim.  (2023).  construction of microbial electrodialysis cells equipped with internal proton migration pathways: enhancement of wastewater treatment, desalination, and hydrogen production.  - science of the total environment.  1-13. 

     

    cut ulfah nihayati husaini, rozieffa roslan, ahmad bazli ramzi, abdullah amru indera luthfi, jian ping tan, swee su lim, gong tao ding, jamaliah md jahim, peer mohamed abdul.  (2023).  the crispr technology: a promising strategy for improving dark fermentative biohydrogen production using clostridium spp.  - international journal of hydrogen energy.  23498-23515. 

     

    swee su lim, poh she chong, bor chyan jong, mimi hani abu bakar, wan ramli wan daud, jamaliah md. jahim, mohd nur ikhmal salehmin.  (2022).  microbial fuel cell-based sensor for enterobacter sp. kbh6958 activity monitoring during hydrogen production: the effects of ph and glucose concentration.  - journal of applied electrochemistry.  1327-1342. 

     

    su, l.s., md. jahim, j., shari, s.n., ismail, m., daud, w.r.w..  (2012).  development of microbial fuel cell for palm oil mill effluent treatment [pembangunan sel fuel mikrob untuk rawatan air sisa kilang sawit].  - sains malaysiana.  41(10):1253-1261. 

     

    krishan balachandran, ryan yow zhong yeo, mimi hani abu bakar, wei lun ang, mohd nur ikhmal salehmin, jean-marie fontmorin, swee su lim.  (2024).  conducting polymer as potential retrofitting material for gas diffusion electrode to enhance microbial electrosynthesis: state-of-the-art review.  - international journal of hydrogen energy.  932-957. 

     

    irwan ibrahim, mohd nur ikhmal salehmin, krishan balachandran, muhammad farhan hil me, kee shyuan loh, mimi hani abu bakar, bor chyan jong, swee su lim.  (2023).  role of microbial electrosynthesis system in co2 capture and conversion: a recent advancement toward cathode development.  - frontiers in microbiology.  1-19. 

     

    ryan yow zhong yeo, bin hou chin, muhammad farhan hil me, jan feng chia, hai the pham, ahmad razi othman, abdul wahab mohammad, wei lun ang, swee su lim.  (2023).  rapid surface modification of stainless steel 304l electrodes for microbial electrochemical sensor application.  - acs biomaterials science and engineering.  6034-6044. 

     

    mohd nur ikhmal salehmin, muhammad farhan hil me, wan ramli wan daud, nazlina haiza mohd yasin, mimi hani abu bakar, abu bakar sulong, swee su lim.  (2023).  construction of microbial electrodialysis cells equipped with internal proton migration pathways: enhancement of wastewater treatment, desalination, and hydrogen production.  - science of the total environment.  1-13. 

     

    cut ulfah nihayati husaini, rozieffa roslan, ahmad bazli ramzi, abdullah amru indera luthfi, jian ping tan, swee su lim, gong tao ding, jamaliah md jahim, peer mohamed abdul.  (2023).  the crispr technology: a promising strategy for improving dark fermentative biohydrogen production using clostridium spp.  - international journal of hydrogen energy.  23498-23515. 

     

    daud, w.r.w., ghasemi, m., chong, p.s., jahim, j.md., lim, s.s., ismail, m..  (2011).  speek/pes composite membranes as an alternative for proton exchange membrane in microbial fuel cell (mfc).  - 2011 ieee 1st conference on clean energy and technology, cet 2011; kuala lumpur. 

     

    irwan ibrahim, muhammad farhan hil me, mohd nur ikhmal salehmin, swee su lim.  (2022).  microbial fuel cells for environmental remediation.  - 23. 

     

    muhammad farhan hil me, mohd nur ikhmal salehmin, swee su lim, and hau seung jeremy wong.  (2022).  microbial fuel cells for environmental remediation.  - 11. 

     

    muhammad farhan hil me, mohd nur ikhmal salehmin, swee su lim, and hau seung jeremy wong.  (2022).  microbial fuel cells for environmental remediation.  - 11. 

     

    irwan ibrahim, muhammad farhan hil me, mohd nur ikhmal salehmin, swee su lim.  (2022).  microbial fuel cells for environmental remediation.  - 23. 

     

    swee su lim, byung hong kim, da li, yujie feng, wan ramli wan daud, keith scott and eileen hao yu.  (2018).  microbial synthesis, gas-fermentation and bioelectroconversion of co2 and other gaseous streams.  - 19. 

     

    ang wei lun;abdul wahab bin mohammad;lim swee su;ahmad razi bin othman.  (2024).  commissioning and performance of biosensor probe for wastewater monitoring.  -

     

    lim swee su;jamaliah binti md jahim;mimi hani binti abu bakar.  (2023).  formulations of copper/tin oxide-derived catalysts for electrochemical co2 reduction in microbial electrosynthesis cells.  -

     

    manal binti ismail;jamaliah binti md jahim;lim swee su.  (2023).  synthesizing and characterizing of a new microfluidic array 3d-graphene electrode in a miniaturized membrane microbial fuel cell.  -

     

    lim swee su;wan ramli bin wan daud;mimi hani binti abu bakar;ibdal satar.  (2022).  improvement of (bio)electrochemical reduction of carbon dioxide to formate using microbial electrosynthesis cell.  -

     

    ang wei lun;abdul wahab bin mohammad;lim swee su;ahmad razi bin othman.  (2022).  expansion of microbial fuel cell sensor design for effective water quality monitoring.  -