Table Tennis player Bhavinaben Patel scripts history, storms into Paralympics final
Tokyo (PTI) : Bhavinaben Patel continued to script history as she became the first Indian to enter the final of a table tennis event in the Paralympics with a hard-fought 3-2 win over China's Miao Zhang in a class 4 semifinal here on Saturday.
The 34-year-old Patel, who had surprised even the Indian camp in this Paralympics with her sensational show, stunned her world no. 3 Chinese opponent 7-11 11-7 11-4 9-11 11-8 in the semifinal showdown that lasted 34 minutes.
She will take on world number one Chinese paddler Ying Zhou in the summit clash on Sunday.
Daughter of Hasmukhbhai Patel, a small time shopkeeper at Sundhiya village in Gujarat's Mehsana district, she was not considered a bright medal prospect coming into the Games but she has made her maiden Paralympics a memorable one.
"When I came here, I just thought that I would give my 100 per cent without thinking of anything. If you give 100 per cent, the medal will come, that was what I thought," said Patel, who was diagnosed with polio when she was a 12-year-old.
"If I continue with this confidence with the blessings of the people of my country, I think I will win gold tomorrow. I am ready for the final and I have to give 100 per cent in the final also."
Patel, who plays in a wheelchair, lost the opening game in a tight contest. But, she made a strong recovery, claiming the next two games to take a 2-1 lead.
Patel was in great touch as she needed only four minutes to wrap up the third game.
In the fourth game, Zhang showed her class not giving Patel the bragging rights just yet as the match headed into the decider.
In the deciding fifth set, Patel quickly raced to a 5-0 lead. But the Chinese made a strong comeback. Trailing 5-9, Zhang won three successive points to make it 8-9.
In a bid to gather herself, Patel took a time-out after which there was no stopping her. Armed with two match points, she notched up the win, extending her purple patch.
This was Patel's first victory against the former world number one Zhang. The two players had met 11 times before.
Patel will face a tough challenge from Zhou in the gold medal match. She had gone down tamely (3-11 9-11 2-11) to the Chinese player in her opening group match on Wednesday.
In the quarterfinal on Friday, Patel had defeated 2016 Rio Paralympics gold winner and world number two Borislava Peric Rankovic of Serbia to clinch a medal and script history.
Athletes in Class 4 category have fair sitting balance and fully functional arms and hands. Their impairment may be due to a lower spinal-cord lesion or cerebral palsy.
Patel started playing the sport 13 years ago at the Blind People's Association at Vastrapur area of Ahmedabad where she was a student of ITI for people with disabilities.
There, she saw visually impaired children playing table tennis and decided to take up the sport. She won her first medal in a competition while representing Rotary Club in Ahmedabad where she is settled now after her marriage to Nikunj Patel, who has played junior cricket for Gujarat.
She reached world number two ranking in 2011 after winning a silver medal for India in PTT Thailand Table Tennis Championship. In October 2013, Patel won another silver in the women's singles Class 4 at the Asian Para table tennis championships in Beijing.
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How C.V. Raman’s Discovery is Saving Millions of Lives Today
Every year on 28 February, India celebrates National Science Day. It is the day we remember Sir C. V. Raman, an Indian physicist who made a discovery in 1928 that changed the world. He received the Nobel Prize in Physics in 1930 for this work, becoming the first Asian to win that honour in science. The Government of India declared 28 February as National Science Day in 1986 to honour this achievement and to keep the spirit of scientific thinking alive in our country. This year, 2026, the theme is "Women in Science: Catalysing Viksit Bharat," reminding us that India's growth depends on every single mind, regardless of gender. But today, let us talk about something that most people do not know. The discovery Raman made while staring at the blue sea is quietly saving your life right now, inside hospitals and medical laboratories across the world.
Let us first understand what the Raman Effect actually is, in the simplest way possible. Raman noticed that when light passes through a clear material, a tiny portion of that light changes its colour slightly. Not much, just a little. In fact, only about 1 in every 10 million particles of light called photons changes. But that tiny change is enough to tell scientists exactly what a substance is made of. Think of it like a fingerprint. Just like no two people have the same fingerprint, no two molecules change light in exactly the same way. So when scientists shine a laser, which is a focused beam of light, on any material, they can read those tiny light changes like reading a name tag. This reading is called Raman Spectroscopy, and it is the most powerful identification tool science has ever created.
Now, why does this matter to a common person sitting at home? Because this technology has quietly walked into your nearest hospital and started doing things that were once considered impossible. Let us take cancer as an example. Detecting cancer early is the difference between life and death. Earlier, doctors had to remove a tissue sample, send it to a lab, and wait for days to get results. Today, Raman spectroscopy can examine living cells and tissues without cutting, without harming, without removing anything from the body. It reads the molecular fingerprint of the tissue and tells doctors immediately whether a cell is healthy or cancerous. This means faster diagnosis, less pain for the patient, and more time to begin treatment. For millions of families who have watched a loved one battle cancer, this is not just science. It is hope delivered at the speed of light.
The medical revolution does not stop at cancer. In pharmacies and drug manufacturing companies, Raman spectroscopy is used to check whether a medicine is pure and genuine. Fake medicines are a serious problem in India and across the world. People buy tablets trusting that what is written on the label is inside the tablet. Raman spectroscopy can verify this in minutes without even opening the packet. The laser passes through the packaging, reads the molecular fingerprint of the medicine inside, and confirms whether it is real or fake. This one application alone is protecting millions of people from consuming counterfeit drugs every single day.
In blood testing, in identifying kidney stones without surgery, in checking whether a wound is healing properly at a cellular level, in detecting early signs of diabetes through the skin without even taking a blood sample, Raman spectroscopy is showing up everywhere. Scientists and doctors are working on handheld Raman devices that a local doctor in a small town can use to diagnose patients on the spot, without needing expensive lab equipment or long waiting periods. In a country like India where medical infrastructure in rural areas is still developing, this could genuinely change how millions of people receive healthcare.
All of this began with one man refusing to accept a simple answer. Raman looked at the blue sea and asked why. That one question, followed by seven years of hard work, gave the world a tool that now fights cancer, catches fake medicines, and is slowly making quality healthcare reachable for every Indian, rich or poor, city or village. This National Science Day 2026, with its focus on women in science, is also a reminder that the next Raman could be a young girl sitting anywhere in this country, asking her own "why." The only thing she needs is for the world around her to stop saying "don't ask" and start saying "go find out."
(Girish Linganna is an award-winning science communicator and a Defence, Aerospace & Geopolitical Analyst. He is the Managing Director of ADD Engineering Components India Pvt. Ltd., a subsidiary of ADD Engineering GmbH, Germany.)
Disclaimer: The views and opinions expressed in this article are solely those of the author. They do not necessarily reflect the views, policies, or position of the publication, its editors, or its management. The publication is not responsible for the accuracy of any information, statements, or opinions presented in this piece.
