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Goswami, Hit K.,Shrivastava, Nirhhay,Gopal, Shiv Kumar,Sharna, Sanjay,Chandorkar, Manoj,Lee, In-Hwan,Chang, Sung-Ik Korean Society of Medical Genetics 1997 대한의학유전학회지 Vol.1 No.1
A nine month old male child presenting degenerating right ulna (massive osteolysis) has been followed up for two years. The bone completely disappeared due to abscesses on the right forearm and without orthopedic or haematological complications. Repeated lymphocyte cultures showed somatic pairing (mostly chromosome pair 5), end to end association involving chromosome 14, 21, 21 and 16, and satellite enlargement in a high proportion of cells with an otherwise normal 46,XY karyotype. These observations are compared with 13 other types of orthopaedic patients, and we opine that cumulative picture of chromosomal aberrations appears to correspond with the present rare anomaly "Mono Ostolic Osteolysis" involving right ulna. None of the controls or any other orthopaedic anomaly studied hereunder exhibits this chromosomal picture.
Hit K,Goswami,Nirhhay Shrivastava,Shiv Kumar Gopal,Sanjay Sharna,Manoj Chandorkar,In Hwan Lee,Sung Ik Chang 대한의학유전학회 1997 대한의학유전학회지 Vol.1 No.1
A nine month old male child presenting degenerating right ulna (massive osteolysis) has been followed up for two years. The bone completely disappeared due to abscesses on the right forearm and without orthopedic or haematological complications. Repeated lymphocyte cultures showed somatic pairing (mostly chromosome pair 5), end to end association involving chromosome 14, 21, 21 and 16, and satellite enlargement in a high proportion of cells with an otherwise normal 46,XY karyotype. These observations are compared with 13 other types of orthopaedic patients, and we opine that cumulative picture of chromosomal aberrations appears to correspond with the present rare anomaly "Mono Ostolic Osteolysis" involving right ulna. None of the controls or any other orthopaedic anomaly studied hereunder exhibits this chromosomal picture.
Pristine graphene-ink for 3D-printed flexible solid-state supercapacitor
Kumar Satendra,Goswami Manoj,Singh Netrapal,Soni Prachi,Sathish N.,Kumar Surender 한국탄소학회 2022 Carbon Letters Vol.32 No.4
Due to its capacity to manufacture low-cost 3D-printed structures, 3D-printing technology offers a unique opportunity for the fast epitome of various applications. Using a typical fused deposition modeling 3D printer along with a Discovery extruder, a graphene-ink can be 3D printed to produce an interdigitated electrode (IDE) arrangement. This work fabricated a 3D-printed planar supercapacitor from pristine graphene-ink without using high-temperature processing or functional additives. The printable ink (89%) is formulated from pristine graphene without the addition of any functional additives. The symmetric flexible supercapacitor is demonstrated with an excellent specific capacitance of 137.50 F/g at 0.5 A/g and an energy density of 12.23 Wh/kg. The obtained gravimetric energy density beats reported earlier carbon-based supercapacitors that are 3D or inkjet printed. The flexibility and robustness of 3D-printed devices are achieved up to 150° folding angles. This work demonstrates an efficient and easy method for fabricating practical energy storage devices featuring a customizable shape and excellent flexibility.
Recent Advancements in Additive Manufacturing (AM) Techniques: A Forward-Looking Review
Netrapal Singh,Hafsa Siddiqui,Bhavani Srinivas Rao Koyalada,Ajay Mandal,Viplov Chauhan,Sathish Natarajan,Satendra Kumar,Manoj Goswami,Surender Kumar 대한금속·재료학회 2023 METALS AND MATERIALS International Vol.29 No.8
We witness noteworthy developments in multifunctional materials progress through additive manufacturing techniques,enhanced by the revolution of Industry 4.0 and Internet of Things. Still, in specific circumstances, the performance of usedmaterials is sometimes limited. Among the various existing techniques, the additive manufacturing (AM) process has gainedmuch popularity over the last two decades and is one of the most revolutionary manufacturing techniques. In this comprehensivereview, we have addressed the fundamentals of various Additive Manufacturing processes, including binder jetting,fused deposition modelling, Stereolithography, selective laser sintering/melting, direct energy deposition. Furthermore, recentadvancements and emerging new technology in AM domain named electrochemical additive manufacturing is highlightedin this review as a major part. These processes’ capabilities, advantages, limitations, and applications are also discussed. Inthe concluding sections of this work, future trends are offered and discussed.